Challenges Have Arisen In the Pursuit of Greater Heights and More Complex Buildings. Building
Height Enhances the Importance of the Structure's Rigidity. the Dominance of Lateral Loads Has Led To
Increasingly Tall Constructions Being Subjected to Peculiar Loading Effects and Extremely High Loading
Values. Tall Structures Must Be Designed With Durability, Functionality, Stability, and Occupant Comfort In
Mind. This Means That Practically Every Designer Must Solve the Issue of Providing Sufficient Strength
And Stability Against Lateral Stresses, Such As Wind Loads and Seismic Forces. a Shear Wall Is a Plate-Like
Structural Element Used In a Building Structure to Withstand Lateral Stresses, Such As Those Caused By An
Earthquake or High Winds. It's Useful For Construction from the Basement Up to the Roof. at Order to Make
A Structure More Earthquake-Proof, Shear Walls May Be Installed In Strategic Positions Around The
Building's Perimeter. the Purpose of This Work Is to Compare and Contrast Three Distinct Models of 'H'-
Shaped Plans, Two of Which Include Shear Walls at Various Locations, With a Third That Does Not Include
Such Walls. Based on These Comparisons, the Best-Performing Model Is Determined. Etabs 2016 Was
Used For All the Calculations.