We present a theory to simulate a coherent GaN QD with an adjacent pure edge threading dislocation by using a finite element method.The piezoelectric effects and the strain modified band edges are investigated in the framework of multi-band k.p theory to calculate the electron and the heavy hole energy levels.The linear optical absorption coefficients corresponding to the interband ground state transition are obtained via the density matrix approach and perturbation expansion method.The results indicate that the strain distribution of the threading dislocation affects the electronic structure.Moreover,the ground state transition behaviour is also influenced by the position of the adjacent threading dislocation. We present a theory to simulate a coherent GaN QD with an adjacent pure edge threading dislocation by using a finite element method. The piezoelectric effects and the strain modified band edges are investigated in the framework of multi-band kp theory to calculate the electron and the heavy hole energy levels. The linear optical absorption coefficients corresponding to the interband ground state transition are obtained via the density matrix approach and perturbation expansion method. The results indicate that the strain distribution of the threading dislocation affects the electronic structure. Moreover, the ground state transition behavior is also influenced by the position of the adjacent threading dislocation