High strength concrete has been widely used since member section can be further reduced; however, its nature of brittle may become an obstacle for further application, particularly for members under high axial loading level. While requiring more lateral reinforcement may cause construction difficulty, addition of fibers can be an alternative to enhance the ductility of high strength reinforced concrete columns. This study presents the improvement of compressive strength and toughness behavior of high strength RC columns by adding high tensile strength hooked steel fibers. Eight 400×400×1200mm high strength RC columns with different stirrups spacing and fiber volume fraction were subjected uniaxial compression loading to verify the confinement efficiency. The test results show that great deformation capacity is developed even stirrups spacing is increased to d/2 in high strength RC with 1.5% fiber volume fraction. The feasibility of steel fibers as a substitute for transverse reinforcement is further confirmed. From the column failure mode, the ability to prevent the spalling and resist the buckling of longitudinal reinforcement due to addition of fibers is also observed. In terms of analysis, this study collects relevant column compression test result and conducts the toughness ratio prediction formula of high strength steel fiber RC columns by regression. The column compression test results are verified by OpenSEES model with well accuracy. A systematic design procedure to determine the appropriate amount of steel fiber in high strength RC columns is provided. Addition of high strength hooked steel fibers in high strength RC columns offers opportunities to significantly simplify the design and construction of columns, while ensuring adequate ductility and damage tolerance.