Recently, piezoelectric material has a very important potential for its property showing high responsiveness as a MEMS (Micro Electro Mechanical Systems) actuator. In addition, the PZT (Lead Zirconate Titanate) is a piezoelectric material most general. Then, physical property changes greatly from changes in the composition ratio. Therefore, function improvement of PZT is tried widely by additive element. However, as for them, empirical method that requires enormous cost and lacking in quantitatively is mainstream. Thus, the application of the results is difficult. Accordingly, in this research, search of the additive element low-cost and quantitatively from the viewpoint of energy by using a first-principles calculation. In consequence, V and Mn can be substitute to the B site on PZT from the cohesive energy value. Moreover, it was confirmed that the structure of PZT is maintained when added in V, and Mn by tolerance factor. Furthermore, V and Mn are lighter than the Zr, so PZT piezoelectricity can be improved by adding V or Mn.