Hi @Zhou69,
Welcome in the Community !
Have you already checked the JMP help section related to split plot design and an example of an analysis ? : https://www.jmp.com/support/help/en/17.2/index.shtml#page/jmp/splitplot-experiment.shtml#ww557792
The analysis done under "REML Variance Component Estimates" display several interesting informations related to your question :
First, you can evaluate how much variance can be attributed to the random whole plot effect, compared to the total variation. This way you can compare if the error term associated with the whole plot replication is smaller or bigger than the residual error term. In other words, how much variability is captured through the random whole plot effect, and how big is this variability compared to total experimental variability (aka the "practical" impact of the random whole plot effect on the experimental variability). This can help you evaluate and compare the practical impact of the whole plot variability on the experimental results total variability.
Second, you can effectively use the Wald p-value displayed, to assess if the random whole plot effect is statistically significant, meaning the response variance depends on the random effect. This can help you evaluate the statistical significance of the random whole plot effect.
You can combine these two informations to assess how much variability is captured through the whole plot effect, and assess if this variance component is statistically significant.
I hope this answer will help you,
Victor GUILLER
"It is not unusual for a well-designed experiment to analyze itself" (Box, Hunter and Hunter)