The thesis presents an assessment of the seismic resistance of an existing two-story stone masonry building. The assessment is based on the currently valid version of the Eurocode 8-3 standard and partially on the new version of the same standard. The analyzed building is located near the town of Ilirska Bistrica and is exposed to moderate to high seismic hazard. The building is approximately 200 years old and is constructed from limestone native to the Karst terrain. The assessment includes a preliminary linear elastic analysis and a simplified nonlinear analysis and is performed for three limit states: the damage limitation state, the significant damage state, and the near-collapse state. The preliminary linear analysis shows that the ratio between walls’ shear force and strength varies significantly across the structure, which means that proving seismic resistance should not be based on the results of such analysis but rather on the use of nonlinear analysis. The nonlinear analysis is performed in accordance with the N2 method. Due to the low mass on the upper floor, the displacement in the pushover curve is equal to the displacement at the top of the ground floor. In the longitudinal direction of the building, where the wall ratio is high, the requirements are fulfilled for the significant damage and near-collapse limit states, but not for the damage limitation state. In the transverse direction of the building, where the wall ratio is lower, the capacities for all three limit states are below the demands. A separate verification of the ground floor strength is also performed, considering the assumed force distributions along the building elevation based on triangular and uniform displacement distributions. Due to the absence of a rigid diaphragm, seismic forces are determined for wall groups proportional to their masses. The analysis of the ground floor strength shows that this floor is not the critical part of the structure.