This research attempts to print the octet-truss lattice microstructure by DLP technology with a lower equipment cost and a shorter printing time. This system employs top-down exposure stereo-lithography. By using a three-axis stepping motor platform to expand the printing area, this system can print microstructures in high levels. In addition, modifying the movement path can reduce the printing time effectively. The purpose of the research is to explore whether the extended structure will affect its mechanical properties, and comparing mechanical properties by changing the ratio of microstructures. In the printing process, this research produced different structures by changing some parameters such as exposure time, resin formulation, and layer thickness which will influence the results. These factors will be discussed separately in the research, especially when it comes to 2x2 structures, the platform moves in X-Y plane which increases the variables that affect the structures. The results of the 2x2 structure occurs stiction problem, which causes the octet-truss to be deformed by different surface tension. Testing mechanical properties will be the last step after printing structures. According to the compression testing, extending the area will not affect the compressive strength. On the other hand, changing the ratio of the octet-truss lattice microstructure can decrease its mechanical properties. Finally, the simulation result is qualitatively the same as the experimental result, but the quantitative is different. The simulation result of stiffness is better than the experiment result, because the forming of the actual truss between designing truss is different, which will decrease its stiffness.