The primary objective of this research is to evaluate structural stability using appropriate techniques, including standard configurations and the correct cross-sections for columns and beams. This involves developing preferred requirements for various support conditions, load types, and load combinations. It is noted that many buildings in India have been damaged or demolished by earthquakes, resulting in the loss of precious lives. The ability of structures to withstand major earthquakes is significantly improved by understanding how buildings respond to seismic activity and leveraging the expertise of engineers. This study examines the effects of different bracing systems (X- bracing bracing, inverted v bracing, k bracing) on the seismic performance of a building located in seismic Zone IV in India using STAAD Pro software. The analysis reveals that all bracing systems significantly control the lateral displacement of the frame. Designing an earthquake-resistant structure presents numerous challenges, especially in earthquake-prone areas. This research highlights the critical role of bracing systems in improving the seismic resilience of high-rise buildings in India.