Nanoimprint lithography which is patterned by mold is favorable for the process of hard disk drive, displays, and solar cells. Within coupling techniques, the vertical coupling can modify k-vector of the incident light, permitting light not to couple from lateral sides of waveguide. The most generally adopted in vertical coupling is the grating coupler. The traditional process of grating coupler needs immersion lithography or electron beam lithography which costs more expense and time. This problem can be improved by utilizing nanoimprint lithography. In this thesis, we use numerical simulation to design a grating coupler. The proposed grating coupler is based on nanoimprint lithography on SOI platform and it can reach coupling efficiency of 57.2% and modal overlap of 88% at the wavelength of 1550 nm. By optimizing the parameter of each grating, the grating coupler can accomplish coupling efficiency of 67.4% and modal overlap of 97%. By including a bottom reflector, the grating coupler achieves high coupling efficiency of 84.4%. The high-efficiency grating coupler can be designed by nanoimprint lithography process.