The subsea engineers are supposed to receive professional skills training systematically to reduce the operation risk in deepwater. The training cost for the subsea staff in the offshore oil and gas is much higher because of its special working environment, compared to it in the land oil. Thus, the virtual reality simulation technology is applied in the deepwater equipment installation to offer a better training platform. In order to simulate the dynamic characteristics of the equipment during subsea installation and guarantee the simulation accuracy, this paper introduces the physical engine Vortex to do the dynamic calculation based on the real-time visual simulation software Vega Prime. The High LevelArchitecture (HLA) is adopted to achieve the synchronization of Vortex and Vega Prime simulation process and data interaction. At the same time, a collision detection model has been built to simulate the subsea installation process considering the special subsea environment. Through hundreds of simulation and evaluation for the installation of the subsea tree, it has been proved that this system has good real-time and accuracy in the dynamic simulation of deepwater installation and can achieve an excellent training effect.