cancel
Showing results for 
Show  only  | Search instead for 
Did you mean: 
Try the Materials Informatics Toolkit, which is designed to easily handle SMILES data. This and other helpful add-ins are available in the JMP® Marketplace
Choose Language Hide Translation Bar

Using Prediction Profiling to Maximize Model Proficiency – Part 2

Published on ‎11-07-2024 03:32 PM by Staff | Updated on ‎11-07-2024 05:42 PM

See how to use a prediction model to find optimum conditions (set points and ranges) to use the model to make decisions.

 

 

See how to:

  • Find optimum set points

    •  

      Optimize desirabilities

    • Identify the combination of factor settings that will optimize the response

    • Define desirabilities

    • Remember settings

    • Lock factor settings (reset factor settings)

    • Simultaneously optimize multiple responses, including when one response is more important than the others

    • Simulate 

  • Find optimum ranges
    • Use Design Space Profiler to set ranges on process parameters and then narrow  factor space based on projected failure rate
    • Make a Connected Table and  Scatterplot Matrix X

Questions answered by @andreacoombs1  and @cweisbart at the live webinar demo.

 

Q: Can you edit the values in the Columns Manager?

A: You can change some of the values such as column names, data type, format, etc.

 

Q: When you optimized your response, how do you make sure percentages don’t go over 100%?

A:  The reason it's going over 100% is assuming that, because it is a linear model, the distribution is normal, which may not be the case. In JMP Pro, you can change the distribution of your response to confine it from zero to one.  You can use the beta distribution and generalized regression, which is used for responses that are, for example, between zero and one or between 0% and 100%.  That will prevent you from having responses above one or 100%,  however you're treating the data.

 

Q: When you were looking at the design space profiler, there was a volume portion percentage. What is that?

A: When you begin, you are starting with a hundred percent of your design space. As you do the full simulation of 10,000 runs, you are looking at a hundred percent of those 10,000 runs and as I'm narrowing my design space with what percentage of those 10,000 run are being unselected from my design space. This is shown as the proportion or volume of your design space.

 

Q: Does the design space profiler take into account the flatness of the response?

A: Yes, indirectly.  Again, you are trying to find the smallest change in X. That results in the biggest increase in your specification rate. The slope of your response is driving if you are going to be in specification.  See video below.

 

 

 

 

Q: Can you extrapolate outside your design space to find somewhere where you might have a higher inspect rate?

A: If you are running model from DOE, your design space and prediction profiler range are constrained by the range of factors tested in the DOE. The Prediction Profiler limits you to factor space. Otherwise, we can use our model to test a wider range and then extrapolate. You would have to do it manually. There's no there's no automated way to do that.

 

Resources



Start:
Mon, Jun 17, 2024 02:00 PM EDT
End:
Mon, Jun 17, 2024 03:00 PM EDT
Labels (1)
Attachments
0 Kudos
0 Comments