The fault-plane orientation and slip directions of earthquakes can provide important information about fault structure. For earthquake with magnitude 3.5 or greater in and around the Korean peninsula, we automatically analyze moment tensor using a long-period waveform inversion. For small earthquakes (M < 3.5), earthquakes occur frequently and are important for characterizing the regional structure, but automatic moment tensor analysis cannot be applied. These earthquakes are typically determined by focal mechanism derived from manually identified P-wave first-motion polarities. Recently, research on artificial intelligence has been used in various fields, and neural network model has been developed to identify P-wave first-motion polarity using local earthquake data from South Korea. In this study, we tested automatic determination of the focal-mechanism of earthquakes with magnitude 2.0 or greater that occurred in and around Korean peninsula using a deep learning model for P-wave first motion polarity identification.