Second, you can identify design flaws and adjust parameters to improve the circuit's performance and safety.įirst, it allows for error detection in the control circuit program before it is implemented in real-life situations. Third, it allows for the testing of the circuit program without the need for actual hardware, which can save time and resources. Fourth, you gain an understanding of how the program works, how it interacts with various inputs, and how it produces outputs. Fifth, it provides a more accurate representation of the circuit's behavior than physical testing.
Why? Because physical testing can be affected by external factors. Sixth, it allows for testing different scenarios without physical changes to the control circuit. Thus, it provides greater flexibility in experimentation. And seventh, it helps to identify potential risks and hazards associated with the circuit program. It allows us to make changes before the circuit is implemented, reducing the risk of errors and accidents.
