This research combined the NREL 5MW wind turbine model with the OC4-DeepCwind semi-submersible platform and mooring system to achieve the overall system dynamic simulation and control. Through the integration of aerodynamics, wave force, wind turbine mechanism dynamics and control system dynamic analysis, the dynamic simulation and analysis of semi-submersible floating offshore wind turbine can be achieved for investigate the impact of wind turbine control and generation power under the different wind and wave conditions. This research implements the dynamic simulation and analysis for the semi-submersible floating wind turbine by combining software FAST, SIMPACK and MATLAB. SIMPACK is used to create the model of semi-submersible floating offshore wind turbines, including floating platform, mooring line, tower, nacelle and blades. FAST is used to perform aerodynamic analysis and hydrodynamic analysis through AeroDyn and HydroDyn toolbox. The mooring system of the floating platform is analyzed by the software MAP++. SIMPACK is applied to implement the mechanism dynamic analysis of wind turbine structure and blades. MATLAB serves to model the subsystems, including the direct-drive permanent magnet synchronous generator, the grid-side converter control, the variable-pitch control system by hydraulic servo control. Through the co-simulation of FAST, SIMPACK and MATLAB, the overall system dynamic simulation of 5MW semi-submersible floating offshore wind turbine can be achieved. The impact of control and power generation can be analyzed under different wind and wave conditions.