Topic: Digital Lógić Simulatór Logic Gate A B Logic Gate 3. We basically want to create a circuit that: o Takes a pair of bits to add, A and B, and outputs the correct S (sum) and C (carry) bits o Therefore, you must instantiate two logic gates - one for obtaining S and another for obtaining C - that can cover all the four cases of A+B in the tables for S and C above. o You can instantiate gates by going to Components → Logic in the menu bar, or in the side pane if View → Component Tree View is checked. o Note that the computation of S and C come from the same two bits, NOT from a separate set of inputs. Therefore, if you need to use the inputs multiple times, you must tap from the wire connected to the existing input, and NOT create a new input. o Place the corresponding logic gates inside the boxes and make sure the ports are all connected. o Run the simulation to check if you get the correct S and C outputs for different combinations of A and B.

Use any digital logic simulator

Fill-in the blank boxes with the correct LOGIC GATE/ Full/Half Adder

 

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Topic: Digital Logic Simulator Logic Gate A B Logic Gate C 3. We basically want to create a circuit that: o Takes a pair of bits to add, A and B, and outputs the correct S (sum) and C (carry) bits o Therefore, you must instantiate two logic gates - one for obtaining S and another for obtaining C- that can cover all the four cases of A+B in the tables for S and C above. o You can instantiate gates by going to Components → Logic in the menu bar, or in the side pane if View → Component Tree View is checked. o Note that the computation of S and C come from the same two bits, NOT from a separate set of inputs. Therefore, if you need to use the inputs multiple times, you must tap from the wire connected to the existing input, and NOT create a new input. o Place the corresponding logic gates inside the boxes and make sure the ports are all connected. o Run the simulation to check if you get the correct S and C outputs for different combinations of A and B.