Bracing system is one such structural system that forms associate integral a part of the frame. Such a structure has to be analyzed before effective arrangement of bracing. ETABS computer code is employed to get the planning of frames and bracing systems with the smallest amount weight and applicable steel section choice for beams, columns and bracing members from the quality set of steel sections. A 3 dimensional structure is enamored four horizontal bays of dimension four meters, and twenty stories is enamored structure height of 3m. The beams and columns are designed to resist dead and loading solely. Wind load and Earthquake masses are taken by bracing. The bracings are provided solely on the peripheral columns. Most of the four bracings are employed in a structure for economic functions. Bracing may be a extremely economical and economical methodology to laterally stiffen the frame structures against wind masses. A braced bent consists of usual columns and girders whose primary purpose is to support the gravity loading, and diagonal bracing members that are connected so that all the members form a vertical cantilever truss to resist the horizontal forces. Bracing is economical as a result of the diagonals add axial stress and thus necessitate minimum member sizes in providing the stiffness and strength against horizontal shear. There are 2 varieties of bracing systems 1) homo centric Bracing System and 2) Eccentric Bracing System. The steel braces are typically placed in vertically aligned spans. This method permits to getting an excellent increase of stiffness with a marginal intercalary weight. 1) homo -centric bracings increase the lateral stiffness of the frame therefore will increase the natural frequency and conjointly typically decreases the lateral structure drift. However, increase within the stiffness could attract a bigger inertia force because of earthquake. Further, whereas the bracings decrease the bending moments and shear forces in columns and that they increase the axial compression within the columns to that they’re connected. 2) Eccentric Bracings cut back the lateral stiffness of the system and improve the energy dissipation capability. The lateral stiffness of the system depends upon the flexural stiffness property of the beams and columns, therefore reducing the lateral stiffness of the frame. The vertical part of the bracing forces because of earthquake causes lateral focused load on the beams at the purpose of association of the eccentric bracing, as a result of lateral loading on a building is reversible, braces are going to be subjected successively to each tension and compression, consequently, they’re typically designed for the additional rigorous case of compression. For this reason, bracing systems with shorter braces, for instance K bracing, could also be most popular to the total diagonal varieties. As associate exception to planning braces for compression, the braces within the double diagonal is meant to hold in tension the total shear in panel. a big advantage of the absolutely triangulated bracing varieties is that the girders moments and shears are freelance of the lateral loading on the structural designing course in kerala. Consequently, the ground framing, that during this case, is meant for gravity loading solely, will be repetitive throughout the peak of the structure with obvious economy within the style and construction. The role of internet members in resisting shear will be incontestable by following the trail of the horizontal shear down the braced bent. The conception of mistreatment steel bracing is one in every of the advantageous ideas which might be accustomed to strengthen or retrofit the present structures. The lateral structure displacements of the building are greatly reduced by the utilization of single diagonal bracings organized as diamond form in third and fourth bay compared to homo- centric (X) bracing and eccentric (V) bracing system.