Mark's points are valid.  Some additional thoughts: Before analyzing the relationships between the factors and the responses, look at the response variables.  Are the values reasonable?  Do they make sense?  Was the variation in the response variables practically significant? Look at the multivariate relationships (Analyze>Multivariate Methods>Multivariate).  Do the relationships/correlations make sense? I always recommend that experimenters predict the data prior to running the experiment to establish context for the results.  The ability to determine relationships can be effected by the amount of variation captured in the study.

Hello @hanyu119,

Other members of the community have bring a lot of very important notions, like how to handle noise in DoE.

If you're running a simulation experiment with non-linear effects, maybe a space-filling design would suit your needs : you will be able to fit a lot of different models through the construction points and handle non-linear effects through  different analysis technique (Tree-based methods, neural networks, SVM, etc... based on the response type). I'm however a bit skeptical about the number of factors you have (15) and the number of experiments this type of design will generate with so many factors (for 15 factors, JMP recommends by default 150 runs with various Space-Filling designs). Maybe the number of runs is not so important for you, since you don't use materials/ressources (it's only a computation/simulation experiment) ?

This JMP quizz would be a good starting point to have a first recommendation about which type of design to try first : DOE Quiz (jmp.com)

Hope this will help you in your reflexion and simulation experiment,