To add a bit to the questions and counsel posed by @Mark_Bailey , when I counted the 'dots' in the normal probability plot I count 11, not 12, unless maybe you got identical responses for one of the treatment combinations? And 12 is kind of an unusual number of runs for a 'full factorial design.' If you have 2 levels specified for each factor, then the number of runs has to equal a power of 2. 12 is not a power of 2. 3 levels per factor, the number of runs has to equal a power of 3 and so on. Maybe you can share the specific design?

And when you say 'two parameter' do you mean 'two factors'? Parameters in a DOE context are usually a word used for describing coefficient estimates for terms in a model. So depending on the structure of your model you could have no parameters (ie, predict y as the grand mean of your responses with just an intercept term or main effects, interaction effects etc.) where each of these effects has their own unique 'parameter estimate'. Maybe you could share your design and responses?

And a bit about your specific experimental goals and objectives? For example, if one of your goals is to ultimately find a robust operating position for the factors that minimizes the risk of 'failure', whatever that means practically or physically, then if you have 2 of 12 responses near the edge of that 'failure' space...well you may really be onto something wrt to your overall problem in terms of where to avoid 'failure' within the factor space.