Abstract: Buildings in seismically active places should be constructed specially to withstand earthquakes of exceptional magnitude, taking into consideration their high structural stability. Moving in a landscape orientation is made easier by using diagonalcolumns, which assist to turn all of the effort that an axial force puts out. Buildings using Diagrid structural systems (a diagonal grid of columns) have more lateral stability than those with traditional structural systems. diagrid system is a popular option formany buildings across the globe because of its structural aesthetics and structural benefits, and it has been used in a great number of exceptional, tall structures created in recent years. In this study, we explored the nonlinear behavior and construction of medium and high steel diagrid structures, as well as the effects of temperature and humidity. Comparing the findings to matching timedrag frames and concentrically related frames is also done, as is doing so with date, running time, base length, fractional, and offset charts. A virtual work schedule-energy and nonlinear seismic analyzing ETABs, G+7 G+11 (G+16), is recommended for use in the design of potential high-seismic diagrid structures in the regions. The nonlinear behavior and increased collapse load of these structures are improved by using a virtual work schedule-energy and nonlinear seismic analyzing ETABs. Keyword: Diagrid building, Seismic, Response spectrum analysis