Compared to traditional grinding and polishing technique, glass molding process have many advantages in producing optical elements, such as cost savings, mass production, process simplification and so on, but there are still some difficulties must be overcame including mold life, shape deviation between the formed lens and the original design and residual stress inside the molded lens. The shape deviation and the internal residual stress are significant factor affect the image quality. Therefore, this research adapt finite element analysis with detailed L-BAL42 glass properties and thermal conductivity to improve the accuracy of the finite element model. Afterward, this model is verified with the glass shapes from experimental results. Then, the mold shapes are compensated to produce molded glass lenes with shape meet the requirement of original design. On the other hand, simulated residual stress distribution is compared with the results observed by photoelastic experiment, and optimization analysis is used to get the optimized parameter for glass molding process to enhance the process efficiency.