In this study, the Gay-Berne potential is adopted to simulate the anisotropic force between the thiophens in coarse-grained model of polyalkylthiophene. The Gay-Berne potential is an anisotropic force which is successfully simulate the phase behavior of liquid crystal. For poly-3-alkylthiophene, the aryl rings on the main chain have π-π interaction and these interaction strongly affect the packing behavior of the conjugated polymers. In order to simulate the anisotropy of π-π interaction between the polymer chains, we calculate the energy curves of two monomers in different orientations then fit the curves by Gay-Berne potential. In the coarse-grained molecular dynamic simulations, the parametrized Gay-Berne model is used to simulate the main chain-main chain interaction of conjugated polymer. Base on Gay-Berne potential, it is possible to explore how π-π interaction affect packing behavior and to investigate the morphological differences between the Lennard-Jones model.