Due to the low symmetry and limited slip systems, deformation twinning plays an important role in the plastic deformation of hexagonal close-packed (hcp) metals. In this work, the {10-11} twin boundary migration under different directions of shear is studied by molecular dynamics simulations. The twin boundary migration is found to be fulfilled by the two-layer twinning dislocation movement on the twin boundary, with both screw and edge components. The implementation of the TD-mediated migration relies on the <1-210> screw component, while the direction of TB migration is determined by the <10-12> edge component. The two-layer twinning dislocation structure is further compared with the experimental observation.