Taiwan is located on the junction of the Eurasian Plate and the Philippine Sea plate. Forming a lot of dip-slopes in many regions. There are some dip-slope disasters in recent years. Chigira has discussed rock creeping under the long-term influence of gravity. He has distinguished the creeping into four types. Lo et al.（2014）have discussed the deformation of dip-slope slate in Taiwan by in-situ investigation, topography analysis and model test. Evaluating the process of the slate deformation and potential failure mechanism. Based on the test result, when the inclining angle of the model foliation, high deformation range will also increase. When the moisture content of the soaking time there are quite a significant increase in the intensity of the decreasing trend. Chong（2014）has used discrete element method software （Particle Flow Code in 3 Dimension）to discuss the deformation of slate slopes. Exploring the influencing factors, including the slope angle, the foliation angle, and the material deterioration on the deformation characteristics. Based on the model tests, two kinds of gravitational deformation of slate slope are identified, the first one is overturning destruction, it appears in the slope with high angle foliation. The other one is fold extrusion near the slope toe, it exhibits in the dip-slope with low angle foliations. The simulated deformed patterns agree well with the actual deformation under different slope angles. In order to further realize dip-slope failure, this study simulates dip-slope sliding and cumulating patterns in different scale and parametric study by using and centrifuge models.