The Wavelength Selective Switch (WSS) is a critical core component of ROADM (Reconfigurable Optical Add/Drop Multiplexers), playing a significant role in the current era where the demand for network speed and bandwidth is continually increasing. This study utilizes a Liquid Crystal on Silicon(LCOS) Spatial Light Modulator (SLM) to design a 3×6 Wavelength Selective Switch(WSS) system. The entire optical pathway is designed using Zemax optical design software to optimize parameters and calibrate the optical path, achieving the best theoretical coupling efficiency. Subsequently, Matlab mathematical software is employed to execute the Iterative Fourier Transform Algorithm(IFTA) to generate phase hologram. Through the optimization algorithm for non-uniformity, each optical field is individually compensated, reducing the non-uniformity of each input-output correspondence to below 5%, thereby improving efficiency by 5-9%. Finally, the phase holograms are input into the LCOS-SLM to alter the phase. The optical path is practically set up to measure the received light and calculate the losses. The component loss in this experiment is approximately 12.04 dB to 12.21 dB, the total system loss is about 23.5 dB to 24.5 dB, and the coupling loss is around 1.5 dB to 2.5 dB.