A good facility layout of semiconductor fabrication plant can reduce material handling distance and increase production efficiency, and therefore increase productivity and competitiveness. Semiconductor fabrication plants generally use a spine configuration with an automated material handling system (AMHS) in the central area and functional bays surrounding AMHS. Each bay consists of equipment with similar functions. This study proposes a hybrid searching heuristic to improve the layout of wafer fabs and reduce the wafer transportation distance. It integrates Steepest Descent method (SD) and Threshold Accepting method (TA). This heuristic first uses SD to find a local optimal solution and then uses TA to search for a better solution. Based on this, the location of the bays in a wafer fab can be re-arranged to reduced wafers' transportation distance. The empirical data of real semiconductor fabrication plants consisting of 8 to 20 bays are used to evaluate the proposed hybrid approach and the other three approaches. Simulation results indicate that the hybrid searching algorithm leads to the best performance (less than 4% from the optimal solution) but requires longer searching time, compared to the other heuristic approaches.