Consider the following state machine: The state machine will perform an arithmetic function on two 4-bit numbers. The inputs are: A: A 4-bit number B: A 4-bit number SEL: A button that selects the desired function. The outputs are: Q: The current state (2 bit) Result: An 8-bit number that holds the result of the desired arithmetic function. States: There are three states: Q = 00: Add Q = 01: Subtract Q = 10: Multiply The state machine jumps from state 00, to 01, to 10, and back to 00, when the input F changes from a 0 to a 1. 1. Draw a state diagram to implement th state machine: 2. Make a state transition table for the state machine.

Consider the following state machine: The state machine will perform an arithmetic function on two 4-bit numbers. The inputs are: A: A 4-bit number B: A 4-bit number SEL: A button that selects the desired function. The outputs are: Q: The current state (2 bit) Result: An 8-bit number that holds the result of the desired arithmetic function. States: There are three states: Q = 00: Add Q = 01: Subtract Q = 10: Multiply The state machine jumps from state 00, to 01, to 10, and back to 00, when the input F changes from a 0 to a 1. 1. Draw a state diagram to implement th state machine: 2. Make a state transition table for the state machine.

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter13: Magnetic Induction

Section: Chapter Questions

Problem 1PA

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