Research on Structural Optimization of Reinforced Concrete Frame Based on Parallel Cloud Computing

In order to solve the problems of excessive wear and poor bearing capacity of reinforced concrete frame, the optimization of reinforced concrete frame structure is studied with cloud computing method. The bearing capacity and related parameters of reinforced concrete structure are calculated by cloud computing method, and the support degree and potential structural wear displacement range of reinforced concrete frame structure are obtained. According to the calculation results, load parameters of building concrete structure are regulated and adjusted. The reinforced concrete frame with X-type braces is strengthened by combining with the standard parameters, and the reinforced concrete frame connection is established. The orthogonal intersection model of the bearing capacity of the structure can effectively complete the optimization study of the reinforced concrete frame structure. Finally, the experiment proves that the research of RC frame structure optimization based on parallel cloud computing has better bearing capacity and anti-wear performance than the traditional RC frame structure, and fully meets the research objectives.