As the radiation resistance detection technology of space components gradually matures, in order to cope with the growing space industry, countries have successively developed pulsed laser detection technology that is faster and more affordable than the traditional use of high-energy particle accelerators to detect single-event effects in the chip. However, the use of pulsed lasers for chip radiation resistance testing also encountered analytical technical bottlenecks, including the quantitative comparison between lasers and high-energy particles, and the impact of lasers being blocked by metal layers on components. Therefore, the purpose of this paper is to establish a set of analysis methods for analyzing the radiation effect of pulsed laser on chips. At first, an experiment is done to obtain the relevant data of the experimental results, and then carry out the simulation construction and simulation analysis of the chip under test based on these experimental data, finally the results obtained by this simulation analysis is putting into compare with the results obtained by the VIRTUOSO simulation. Through the comparison of the two results, it can be seen that the analysis results of this paper are similar to the results of VIRTUOSO, thus verifying the feasibility of this analysis method, and then establishing an analysis method for the radiation effect test of the pulsed laser on the chip . At the end of the paper, it is also proposed that this analysis method can be optimized, so that the analysis results can be more accurate. It is expected that this analysis method can be applied to the analysis of the radiation effect of pulsed lasers on different chips in the future.