In geotechnical engineering, the knowledge of geomechanical subsurface properties is fundamental to stability analyses. The usual practice is that a geologist/geotechnical engineer does this distribution estimate. The professional makes some geologic-geotechnical sections based on his/her experience and by the observation of field/laboratory investigations data. But these 2D sections cannot take spatial distribution. To solve this problem and provide a better global comprehension of rock mass, this work presents a study of 3D property distribution. The geological modeler PETREL(TM) has been used to do a geostatistical estimate of RMR and fracture density spatial variety at the rock mass where the AHE Simplício`s power house will be installed. This distribution has been estimated based on data linked to the boreholes, spatially arranged at the model. The geometry of the future excavated surface was introduced in the model. The purpose was to carry out a study to find the critical quality section of the model related to the excavated slopes. This section was extracted with its RMR value distribution. Before the stability analysis, the resistance parameters c and Ø were calculated to every point on this section from the RMR correlations. The slope stability of the critical section was calculated in a program where the resistance parameters can vary point by point. The conventional rock slope stability analysis has been done too. At the end of the study, the first analysis was compared against the last one, proving the importance of the subsurface tridimensional modeling.