In recent years, the demand for semiconductor testing has continued to expand as a result of the continuing development of new information and communication products (such as fifth-generation mobile communication, high-performance computing, and other technologies). While pursuing revenue and profit growth, manufacturers must consider how to find the optimal planning of the company's internal production facilities and the capacity of outsourced manufacturers, taking test quality into account and avoiding the rapid expansion of production capacity and overutilization during recessions. low problem. In the past, a number of academics have presented a novel planning method (De novo Programming) to optimize the capacity allocation of in-house and outsourced manufacturers. Despite this, there is still a gap between the new planning approach and the aspired level, which is unattainable. The optimal answer Consequently, this study introduces the approach of changeable space programming and builds the planning model for the test factory's production capacity aspirations. This study will verify the model's feasibility using the empirical case modified from a real capacity planning problem of a semiconductor assembly and packaging plant. Based on the results of the empirical study, changeable space programming indeed can derive better results than the ones derived by De Novo and linear programming techniques. In the future, capacity plan of any factory can be optimized by utilizing a well-developed framework.