We try to design the lattice with 2 super periods and 4-DBA structure in order to provide more drifts for the future development of the TTX source.Due to the space limitation in the lab,the 4-DBA lattice is suitable.In the paper,we present the lattice design with a 4-DBA structure mainly for the pulse mode of the compact laser-electron storage ring (LESR).Element parameters of the lattice are optimized with the help of the professional software and beam dynamics such as intra-beam scattering (IBS) and Compton scattering (CS) are calculated.Besides,the fringe field effect is analyzed with the numerical method. We try to design the lattice with 2 super periods and 4-DBA structure in order to provide more drifts for the future development of the TTX source. Due to the space limitation in the lab, the 4-DBA lattice is suitable. The paper , we present the lattice design with a 4-DBA structure mainly for the pulse mode of the compact laser-electron storage ring (LESR). Elemental parameters of the lattice are optimized with the help of the professional software and beam dynamics such as intra- beam scattering (IBS) and Compton scattering (CS) are calculated.Besides, the fringe field effect is analyzed with the numerical method.