Factor Info:
Name: (optional) Enter a descriptive name for each factor.
Units: (optional) Enter the units of measure for each factor.
Change: A factor can be set as Easy or Hard to change.
Easy: indicates this factor will be completely randomized and can potentially change from run to run.
Hard: indicates this factor will be changed as little as possible, restricting the randomization.
Type:
Numeric Factors (to fit polynomial models)
Continuous: (default) Defines a range for the factor settings. Any value between the low and high level is available for the experiment.
Discrete: Defines the factor settings that available to the experiment for an otherwise continuous factor. Using discrete factor settings can make the experiment more convenient to conduct, while having minimal impact on the strength of the analysis. Check the evaluation node output for a design built with continuous factor settings versus one built with discrete settings to see the impact on the analysis. A discrete factor must have at least one more level than the order of the model needed to fit the response surface. (e.g. three levels are needed for a quadratic model, four levels are needed for a cubic model, etc.) Only enough levels to fit the designed for model and provide a lack-of-fit test will be used; there is no requirement or guarantee that all the specified discrete settings will be used.
Categoric Factors (to compare treatments)
All levels and combinations of levels required to fit the design model will be included in the design.
Nominal: (default) This type of factor is one that simply uses names or classes to describe the levels, for instance peanut butter types (Creamy, Chunky, SuperChunk).
Ordinal: This type of factor uses numbers that are ordered to show the natural progression, for instance temperature (200, 250, 300 Kelvin), where the baseline is the first level. These will be analyzed using orthogonal polynomial contrasts, which can be broken down into linear, quadratic, cubic, etc. components.
Note
Instead of using ordinal contrasts you may be better off creating a discrete numeric factor.
Levels: If Type is continuous then only the low and high limits for the factor need to be defined. If Type is discrete then the number of levels (N) allowed needs to be entered. For categoric factors provide the number of levels.
L[i]: Specifies the setting to use in the experiment. L[1] is always the lowest setting a numeric variable can take. The value of the level must increase with i. For categoric factors specify the exact spelling and punctuation for each of the treatments.