In order to promote the competition ability and additional value of domestic machine tools in the world, this thesis brings up a valid method and algorithm that can be directly programmed in the CNC controller and automatically modify the servo parameters to obtain the optimal machining performance without losing its machining efficiency. In this thesis, Taguchi Method is used to analyze the experimental data to identify the dominant servo parameters of the controller. Subsequently, the algorithm to optimally control the various load weights to obtain the better surface roughness of workpiece is developed. According to the algorithm, an automatic optimal machining control system is developed with FANUC Marco Executor. The system can automatically find out the values of the servo parameters and substitute to the controller for better machining accuracy without losing its machining efficiency. Curve fitting technique with experimental method was adopted for the development of the system. To verify the effectiveness of the developed system, several cutting experiments were conducted in DAHLIH PT-128 machining center. In the experiments, HEINDENHAIN Grid encoder and CMM were used to inspect the machining accuracy. The verification results have shown that the system can well enhance the machining accuracy of a machine by automatically turing servo parameters.