Recently, neural netwok models provide an interesting tool for both forecasting researchers and practitioners. In a time series forecasting using neural network, it is important to decide the number of input nodes corresponds to the neural network model. Because too few or too many input nodes can affect either the learning or prediction capability of the network. However, currently there is no suggested systematic way to determine this number. Thus we propose the method to decide the number of input nodes using nonlinear autocorrelation AMI. The Average Mutual Information (AMI) measures how much one random variable tells us about another. In the context of time series analysis, AMI helps to quantify the amount of knowledge gained about the value of x(t + τ ) when observing x(t). Specially, to take into account nonlinear correlations the average mutual information (AMI) can be used. In this study, we divided the 2019 Kospi data into two portions : 80 percent for training and 20 percent for testing. We found the 8 input nodes, 1 hidden layer, 2 hidden nodes for best network model using AMI and caret package in R. And then, we predicted the test data using this neural network and found the mean squared error is 0.002.