Max P
d1a3b7cec9
Increases the delay in the monitoring script from 1 second to 3 seconds to reduce resource strain during rapid file changes. Introduces a new Python script for calculating optimal clock frequency settings based on input and target frequencies.
30 lines
976 B
Python
30 lines
976 B
Python
def find_best_clkfx(input_freq, target_freq):
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best_m = 0
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best_d = 0
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best_error = float('inf')
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best_output = 0
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for m in range(2, 33): # CLKFX_MULTIPLY 2..32
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for d in range(1, 33): # CLKFX_DIVIDE 1..32
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output_freq = input_freq * m / d
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error = abs(output_freq - target_freq)
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if error < best_error:
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best_error = error
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best_m = m
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best_d = d
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best_output = output_freq
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relative_error = (best_error / target_freq) * 100
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print(f"Beste Werte:")
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print(f" CLKFX_MULTIPLY => {best_m}")
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print(f" CLKFX_DIVIDE => {best_d}")
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print(f"Erzeugte Frequenz: {best_output:.6f} MHz")
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print(f"Abweichung: {best_error:.6f} MHz ({relative_error:.3f}%)")
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if __name__ == "__main__":
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input_freq = float(input("Eingangsfrequenz (MHz): "))
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target_freq = float(input("Ziel-Frequenz (MHz): "))
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find_best_clkfx(input_freq, target_freq)
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