Due to the shortage of fossil energy and the serious environmental pollution problems, in the future, energy from photovoltaic cells will become more important. In order to enhance the electric power output, the tilt angle of cell modules should be adjusted according to the climatic conditions as well as the latitude of the site where the cell modules have been installed. In this study, seven Taiwanese cities were selected for analysis. First, the position of the sun at any time and location was predicted by the mathematical procedure of Julian dating; then, the irradiation was obtained at each site under a clear sky. By considering this data with the temperature effect, a genetic algorithm was adopted to calculate the tilt angle and output power for fixed south-facing PV modules. The results show that the annual optimal angle for the Taipei area is 23.15°; for Taichung, 22.2°; for Tainan, 21.14°; for Kaosiung, 20.78°; for Hengchung, 20.16°; for Hualian, 22.15°; and for Taitung, 20.93°. The conversion efficiencies are between 13.08% and 13.61%. In order to confirm the computer simulation results, experiments were conducted for determining the optimal tilt angle of the PV modules. Six fixed south-facing PV modules with different tilt angles were selected. The experiment was carried out at Nantou city in Taiwan from April 2006 to March 2007. A PC-based data-acquisition system was built to automatically record each PV module's voltage, output current, output power, temperature and solar irradiation. The results also show us that the optimal tilt angles were very similar whether the electric power or the irradiation was used as the objective function. Hence, the tilt angle of the fixed structure modules should be carefully evaluated for different places and periods of time ill order to obtain the maximum overall output power.