In the traditional design of reinforced concrete structures, structural variables such as size and shape configurations generally use past experience to set the initial value such as the length, cross-section type and size of beam and column. In fact, these variables are correlated. Due to overly hasty design, the final results designed by engineer often failed to efficiently play the best performance for all structural variables. The optimization designs of structure belong to the constrained, nonlinear and discrete variable optimization problems. The traditional design methods such as optimal gradient method or linear programming are not applicable for solving this type of problem. Artificial Neural Networks method is different from the traditional one which is a kind of parallel distributed processing computing model. The basic principle of operation is based on a large but simple processing unit, or called Neuron connected to each other; by using the whole processing unit by the simple arithmetic of the external input signal to process information, which is similar to many features and benefits of human brains. Main purpose of this paper lies in the Artificial Neural Networks training with cross-validation method and Train-and-Test method used in reinforced concrete beam members, column members, beams and other structural cost minimization framework of optimal design. The paper has further consolidated to establish the cost minimization of reinforced concrete buildings of structural optimization design patterns. Using the results of this study can make traditional reinforced concrete structure which only meets seismic requirements further achieve cost minimization of the optimal design.