This study uses soil-structure interaction analysis software SASSI2000 to analyze the seismic response of nuclear concrete canister. The acceleration response of the canister and the foundation is examined to determine whether there is rocking during seismic motion. The 3D Inter-Pile soil element is taking in this study to consider soil–pile interaction, and the lumped-mass element instead of beam element is adopted to simplify the canister model and to understand how structural inertia force influences the response result. Finally, using the 1D wave equation analysis EQWEAP for seismic response of the pile foundation, the displacement, bending moment and shear force of the pile can be achieved. An approximate Bouc-Wen model is used to obtain the nonlinear pile responses. The observations are summarized as follows: (1) Comparing the solutions with NCREE’s estimations, one can found that the acceleration spectrum are almost the same, the differences are within 6%. (2) For the comparison between the simplified canister model and the original model, one can find that the response value will be enlarged 1%, which shows that the structural inertia force has no significant effect in this case. (3) The pile analysis is based on the 1D wave equation with an approximate Bouc-Wen model. Tri-linear moment-curvature relationship is used to simulate the pile damages. As a result, the pile displacement will be increased in soft soil site, in that case the whole pile shaft has cracking damage. For piles in the stiff soil site, the pile displacement will be reduced and the pile shaft will remain at elastic condition. As showed by the results, the pile displacement will be reduced tremendously with the increase of soil stiffness (soil shear velocity). Therefore it is concluded that the site condition has a significant effect to the foundation responses in this case.