This study intends to discuss the applications of reliability analysis on seismic performance of pile with one-dimensional wave-equation modeling EQWEAP. Numerical examples were conducted for typical pile foundations on a bridged expressway located at Sinjhuang District in New Taipei City. Nonlinear moment-curvature relation of the concrete pile was used to simulate the damages and failure of the piles. In this study, the pile foundation is designed as 3×3 piles with pile diameter of 2m and length of 60m. The area ratio of steel bar is about 1.94%. The pile is only applied with the vertical load of 18000kN. For Reliability analysis of the time-dependent behavior of the pile, selected seismic records were adjusted to different PGAs (0.03g~0.51g) as the input motions. The corresponding weights of these scenarios were calculated and multiplied with the number of failures to compute for the reliability index. The assessments were based on the internal bending moments recorded at the interface between pile and the pile cap. Three seismic levels were considered with the critical moment capacities of the pile. The computed reliability indexes for MCS are 2.0~6.0, and those for FORM are 2.0~4.8. For seismic level I, the piles will be slightly damaged and the cracks will occur at the pile head. Nevertheless the most pile shaft will remain elastic. For seismic level II, the maximum bending moment occurred at the pile head would cause the bar to yield but no plastic hinge was found. For seismic level III, the piles were found safe without fully mobilizing the ultimate moment. The results are similar to the previous findings using the PBEE analysis. According to the calculations, the reliability index of MCS is bigger than FORM analysis, the details of the comparison require more studies.