The performance of photoelectric transceiver module is very important to the whole communication system quality. An optoelectronic collaborative link simulation system including optoelectronic devices, packaging structure and other parameters is designed. Firstly, the electrical parameters of the package structure are obtained by optimizing the system package scheme, layout and signal integrity. Secondly, the photoelectric device parameters are optimized and an optoelectronic collaborative system is established which includes the influence of the electrical parameters of the packaging structure on the system performance simulation link, through the optoelectronic collaborative link simulation, the module is optimized and evaluated in advance to ensure that the optoelectronic hybrid integrated system meets the requirements. Finally, the module is assembled and tested. The simulation results show that under the input of 25 Gb/s signal source, the module carries out self receiving through 1 km optical fiber. Under the 213-1 code type, the error code of the module is less than 1E-15, and the total power is only 3.6 W.