Data Management Capabilities > Managing Part Structures > Developing Advanced Selection Logic for Configurable Modules > Examples and Best Practices for Advanced Selection Logic > Creating Modular Configurable Product Structures > Designing a Module Product Structure
  
Designing a Module Product Structure
Many products have a number of subsystems that have their own sets of optional elements. In some cases, the options for each subsystem are processed independently by the system in a logical progression. However, in other cases, it may be necessary for the available options in one subsystem to be affected by the selections made in other subsystems.
For example, consider a metal display case that is available in several different models with a variety of display, trim, and lighting options. Depending on the display case model selected, the options that are available for the display, trim, and lighting elements may be different.
For a simple product structure with only a few modules and a limited set of options, it is relatively easy to create and test a suitable configurable product structure. However, if the product structure has as few as five modules, each with six possible options to choose from, the total number of permutations (5 x 6 or 30, in this case) can be overwhelming.
The suggested approach is to organize the module’s product structure into configurable modules, as shown in the following figure.
For this example, assume that the display case is available in five different models, Model_01 through Model_05, and that some of the options are only applicable to certain models, as shown in the following table.
Display Case Model
Trim Options
Lighting Options
Display Options
Model_01
Twin Standard
Single Double
Shelf, Ventilated Shelf, Solid
Model_02
Standard Deluxe
Double, Triple
Shelf, Ventilated Shelf, Solid
Model_03
Twin Standard Deluxe
Single Double Triple
Shelf, Ventilated Rack
Model_04
Twin Standard Deluxe
Single Double Triple
Shelf, Ventilated Shelf, Solid Rack
Model_05
Twin Standard Deluxe
Single Double Triple
Shelf, Ventilated Shelf, Solid Rack
The next step is to establish the appropriate logic elements in a modular fashion so that each option module can be tested independently and then integrated into the full product structure. For example, consider the logic for the Trim Options module. This module requires four parameters as follows:
askModel
String, Input Parameter
Prompt = “(TRIM OPTIONS) Select the desired display case model”
Constraint:“Model_01”, “Model_02”, “Model_03”, “Model_04”, “Model_05”
“hide when driven” = true
useStandard
Boolean, non-input parameter
Added to the Inclusion Option in the Uses tab of the Display Case configurable module for the Bumper, Standard part
useTwin
Boolean, non-input parameter
Added to the Inclusion Option in the Uses tab of the Display Case configurable module for the Bumper, Twin part
useDeluxe
Boolean, non-input parameter
Added to the Inclusion Option in the Uses tab of the Display Case configurable module for the Bumper, Deluxe part
Next, you need a case table such as pickTrim to control the applicability of the trim options for each model of the display case, as shown in the following table.
Display Case Model
Trim Options
Lighting Options
Display Options
Model_03
TwinStandardDeluxe
SingleDoubleTriple
Shelf, Ventilated Rack
Model_04
TwinStandardDeluxe
SingleDoubleTriple
Shelf, Ventilated Shelf, Solid Rack
Model_05
TwinStandardDeluxe
SingleDoubleTriple
Shelf, Ventilated Shelf, Solid Rack
The next step is to establish the appropriate logic elements in a modular fashion, so that each option module can be tested independently and then integrated into the full product structure. For example, consider the logic for the Trim Options module. This module requires four parameters as follows:
askModel
String, Input Parameter
Prompt = “(TRIM OPTIONS) Select the desired display case model”
Constraint:“Model_01”, “Model_02”, “Model_03”, “Model_04”, “Model_05”
“hide when driven” = true
useStandard
Boolean, non-input parameter
Added to the Inclusion Option in the Uses tab of the Display Case configurable module for the Bumper, Standard part
useTwin
Boolean, non-input parameter
Added to the Inclusion Option in the Uses tab of the Display Case configurable module for the Bumper, Twin part
useDeluxe
Boolean, non-input parameter
Added to the Inclusion Option in the Uses tab of the Display Case configurable module for the Bumper, Deluxe part
Next, you need a case table such as pickTrim to control the applicability of the trim options for each model of the display case, as shown in the following table.
askModel
useStandard
useTwin
useDeluxe
Model_01
yes
yes
no
Model_02
yes
no
yes
Model_03
yes
yes
yes
Model_04
yes
yes
yes
Model_05
yes
yes
yes
These logic expressions allow you to test the Trim Options module independently, so that you can ensure that everything is working as you intended.
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If you use the same approach for each of the modules, though, the user is asked repeatedly what model of Display Case they want, which is undesirable. Therefore, after you create each of the modules and verify that they work correctly, you need to integrate them together.
To integrate the modules:
1. Create a suitable parameter to determine the model within the Display Case configurable module as follows:
askModel – String, Input Required Parameter
Prompt = “Select the desired display case model”
Constraint:“Model_01”, “Model_02”, “Model_03”, “Model_04”, “Model_05”
2. Establish an equivalency between askModel in the Display Case configurable module and all of its descendants.
3. Remove the constraints for each askModel parameter in each of the option modules.
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Removing these constraints is necessary to avoid conflicts between the Display Case top-level configurable module and the configurable modules that comprise each module.
4. Test the completed configurable product structure. Because you have already tested each of the modules, you only need to verify that the value of askModel entered by the user in the Display Case top-level configurable module is correctly copied to each of the modules.
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If you display the BOM Tree in the Set Parameters page of the Configure window and use the Apply button, you can quickly see whether the current value of askModel in the Display Case configurable module has been copied to each of the modules.