In geotechnical engineering practice, the seismic wave propagation from bottom to the ground surface often cause damaging disasters on the ground. Vibration waves pass through different stratigraphic conditions, such as soil layer densities, soil shear wave velocities, and tilt angle between different soil layers etc., would cause amplification or declination of site response. The effect is so-called site effect. This study mainly discusses different geological conditions to explore the tendency of ground motion. In the real site, the nature of the soil is extremely complicated. In order to simplify the difficulty of obtaining soil parameters during the simulation, we regard the soil layer as a combination of several homogeneous soils. With small shear strain of soil material, the behavior is regarded as a linear elastic body, and the soil performs elastic linearity. In dynamic analysis, Rayleigh damping is usually assigned in the soil material to simulate the energy dissipation of soil. However, with larger deformation, the behavior of soil convert linear elasticity into plasticity. It is also necessary to use hysteretic damping to simulate nonlinear soil energy dissipation in numerical simulation. The study summarizes the results of different soil conditions, developing the trend affected by the influence of site effect. Also, evaluating the most dangerous region of the basin while earthquake occurred.