One of the most important issues in geotechnical engineering is slope stability. Especially recently, embankment slopes built on soft soils have become very important. It is of great importance to improvement soft soils in these areas. Otherwise, the slope may lose its stability and cause great loss of life and property. Many methods are used to improve of the slopes. One of these methods is the deep mixing technique. When the studies conducted in the past are examined, it has been observed that there are not many studies about the behavior of slopes consisting of soft soils improvement with deep mixing under the effect of earthquakes. In this study, the stability of the embankment slope under the effect of earthquake on the soft soil, which was improved by deep mixing using the Plaxis 2D program, was investigated. In the study, a embankment slope model of 4 m thickness with 45 slope angle was created on a 30 m wide and 12 m thick organic soil layer. In the first phase of the study, the stability of the embankment slope on the soft soil that was not improved due to the earthquakes in Elazig (which occurred on January 24, 2020) and Van (occurred on October 23, 2011) was examined. Then, dep mixing columns with a diameter of 100 cm, two different application depths (L:5 m, 10 m) and two different application intervals (s/D:2, 2.5) were added to the soft soil under the embankment slope. The behavior of this embankment slope model created under the same earthquake effect was investigated. As a result of the study, it was observed that the safety factor of the embankment slope increased with the deep mixing method added to the soft soil. In addition, it was observed that the safety factor increased as the depth of the deep mixing column increased, but the safety factor decreases as the column intervals increased. Therefore, it can be said that the deep mixing columns added to the soft soil under the effect of the earthquake give a positive result on the stability of the embankment slope