Presently in the industry, the design process of the ultrasonic horn is based on approximate theoretical solutions and empirical formulas to obtain rough design, and then finite element analysis was conducted to refine the design. This numerical design was then modified through iterative trial-and-error experiments. The whole process is time consuming in getting final optimum parameters. This research combines the computer-aided design, the finite element analysis and the optimum design to provide a high-speed, accurate and automatic system for the horn design. This research carries out the optimum design on two different type of ultrasonic horn, in order to improve the uniformity of the amplitude output. Also use the optimized parameters to produce prototype horns and measure theirs amplitude experimentally to verify the accuracy of the simulations. The results showed that the FEA models are closed to the experimental data, and the optimum design system in this research improved the uniformity of the amplitude output of the horn. Also, the integrated system indeed increased the efficiency in designing the horns.