Objectives

The objective of this exercise is to help new users of Syndeia graph analysis to formulate Gremlin queries to analyze their graph with the Syndeia Web Dashboard. Aras Innovator (Aras) is a PLM repository from Aras Inc. The specific learning objectives of this exercise are to create lists of

• Aras artifacts of a specific artifact type

• Aras artifacts connected as part of a specific Syndeia Project

Preparation

This exercise assumes the student has

• Syndeia Cloud 3.3 or 3.4 installed with a valid user account, and

• An existing Syndeia graph containing Aras elements connected to elements in other repositories.

Because the content of your Syndeia graph will be different, the specific examples in the following exercise instructions are only a guide and example for your actions. It is generally advisable to carry out these exercises in a non-production repository, a “sandbox”, set up for training and practice purposes.

See the tutorials under Syndeia Cloud Web-Dashboard/Part 19 – Syndeia Cloud Graph Analysis for an overview of this feature.

Update for Syndeia Cloud 3.6 – This exercise assumes that the user has been assigned Global Graph Query permission by the Syndeia Cloud administrator in order to access the Graph Queries page. Screenshots in this tutorial were taken from an earlier release; the icons on the left margin of the figures and the graphical display format of query results have been modified but the instructions are otherwise unchanged.

Background – Syndeia Cloud Data Model

Figure 1 provides a simplified schema for elements in the Syndeia Cloud graph. All graph nodes are either Repositories, Containers, or Artifacts, where each Artifact is owned by a Container and Each Container is owned by a Repository. Each has a Type; the set of ContainerTypes and ArtifactTypes are owned by the Repository. How the Aras data model maps to the Syndeia Cloud data model is discussed in the next section.

Open

Figure 1 Syndeia Cloud Schema (simplified)

Background – Aras Innovator

As of Syndeia release 3.4, the Syndeia Web Dashboard can extract and display some model information from an Aras repository. Figure 2 shows a tree view of this information, with labels identifying the Aras element types. Note the different icons. The label color coding indicates how the Aras element type is mapped to the Syndeia Cloud element types: Repository (green) and Artifact (blue).

Unlike most other repositories that Syndeia integrates with, Aras does not have any explicit ContainerType objects. When an Aras repository is linked to the Syndeia Cloud graph, a single “dummy” Container is created named Default Repository. This does not appear in the Tree View of the Aras repository, but can be displayed by the appropriate Gremlin query. However, we will not be using it in this exercise.

The Syndeia Aras integration supports a large number of standard Aras artifact types through the Search function, but we will only demonstrate Products and Parts in this exercise. A more complete diagram of the Aras data model as it is understood by Syndeia is available through the web dashboard help menu on the left.

Open

Figure 2 Tree view of Aras repository

It is also important to understand the limitations of graph queries with respect to Aras repositories. As of Syndeia 3.6, graph queries cannot extract the internal structure of an Aras repository, i.e. they cannot be used to obtain the full structure of the Aras repository or internal (intra-model) relations between Aras artifacts. In this way, graph queries are different than the Tree View or Graph View (Digital Thread Explorer) capabilities of the Repositories page in the Syndeia Web Dashboard. Graph queries are most useful in viewing inter-model connections from Aras elements to other repositories.

Exercise

1. Log on to the Syndeia Cloud Web Dashboard (see Video 1.2) and click on the Graph Queries icon on the left border.
   
   

2. The first task is to compile a list of Aras Artifacts of a specific type. Per Figure 1, ArtifactTypes are owned by (specific to) a Repository. We typically want to begin by creating a list of Artifact types available in such a Repository.
   
   

   1. If we use Query Builder (Figure 3), we select ArtifactType from the pull-down menu under Label.
      
      

      Open

      

      Figure 3 Graph Queries page (icon outlined in red) – Query Builder
      
      

   2. To restrict the list of ArtifactTypes to our current Aras repository, we click Filters. We will filter by the name of our Repository, so we select Repository from the pull-down menu at the top marked Property of. Under Property Key, we select the Name property and under Property Value, we enter Aras Innovator @ Intercax. We then click the Plus (+) button to add the filter in the bottom list and the window should look similar to Figure 4. Click Close.
      
      

      Open

      

      Figure 4 Query Builder Filters window
      
      

3. Back on the Graph Queries page, click Run. The results, a list of all ArtifactTypes in Aras Innovator @ Intercax, may be displayed in table form as in Figure 5. Key ArtifactType properties in the table are Name and Key because we will use these in the next search. Click the Exports icon to export the list as a CSV file for future reference, if desired.
   
   Note: only Aras artifact types actually present in the Syndeia graph will appear in this list, i.e. there must be at least one example of the artifact type connected to another domain by an intermodel connection in order for it to make the list.
   
   

   Open

   

   Figure 5  Graph Queries page, ArtifactTypes results in table format (Export icon highlighted in red)
   
   

4. Note at the top of Figure 5, the Query Builder utility has created a Gremlin query. We could have performed the same search with the same results by going to the Raw Query mode and entering this query directly.
   
   g.V().has('sLabel','ArtifactType').where(outE().has('sLabel','ownedBy').inV().has('name','Aras Innovator @ Intercax')
   
   

5. The final part of the first task is to generate a list of all Artifacts of type Part within the Aras Innovator @ Intercax Repository. Note that Syndeia will return only those Aras Parts that are connected within the Syndeia Cloud graph or own elements that are connected within the Syndeia Cloud graph, not all Parts in the repository.
   
   

   1. We can search by ArtifactType Name (“Part”) or Key (ART-TYPE447), which we got from the table in Figure 5. Generally, it is better to search by Key, which is unique within the Syndeia Cloud database, rather than Name, which is not unique.
      
      

   2. If we use Query Builder, we select Artifact from the pull-down menu under Label, as in Figure 6.
      
      

      Open

      

      Figure 6  Query Builder, Artifact search
      
      

   3. To restrict the list of Artifacts to the Aras Requirement type, we click Filters. We will filter by the ArtifactType Key, so we select ArtifactType from the pull-down menu at the top marked Property of. Under Property Key, we select the sKey property and under Property Value, we enter ART-TYPE447, which we took from the table in Figure 5.  After we click the Plus (+) icon, the Filters window should look like Figure 7. Click Close.
      
      

      Open

      

      Figure 7  Query Builder Filters window, filter by ArtifactType sKey
      
      

6. Back on the Graph Queries page, click Run. The results, a list of all Artifacts of type ART-TYPE447, which is owned by the repository Aras Innovator @ Intercax, may be displayed in table form as in Figure 8. Click the Exports icon to export the list as a CSV file for future reference, if desired.
   
   

   Open

   

   Figure 8  Graph Queries page, Artifacts results in table format, truncated (Export icon outlined in red)
   
   

7. Note at the top of Figure 5, the Query Builder utility has created a Gremlin query. We could have performed the same search with the same results by going to the Raw Query mode and entering this query directly.
    g.V().has('sLabel','Artifact').where(outE().has('sLabel','hasType').inV().has('sKey','ART-TYPE447'))
   
   

8. The second task is to compile a list of Aras Artifacts that are connected as part of a specific Syndeia Project. Syndeia Projects are partitions within the Syndeia Cloud graph database that separate different projects or system models. Syndeia Projects are Containers owned by the Syndeia Repository and contain only relations, the inter-model relations that define the “macrostructure” of the Digital Thread for that system or project. In this case, we are looking not for the Aras parts directly; we are looking for inter-model connections where one end is a Aras part.
   
   

9. We will begin by creating a list of Containers available in the Syndeia Repository.
   
   

   1. If we use Query Builder (Figure 9), we select Container from the pull-down menu under Label.
      
      

      Open

      

      Figure 9 Graph Queries page (icon outlined in red) – Query Builder
      
      

   2. To restrict the list of Containers to the Syndeia repository, we click Filters. We will filter by the name of our Repository, so we select Repository from the pull-down menu at the top marked Property of. Under Property Key, we select the Name property and under Property Value, we enter Syndeia Repository. We then click the Plus (+) button to add the filter in the bottom list and the window should look similar to Figure 10. Click Close.
      
      

      Open

      

      Figure 10 Query Builder Filters window
      
      

10. Back on the Graph Queries page, click Run. The results, a list of all Containers in the Syndeia Repository may be displayed in table form as in Figure 11. Key Container properties in the table are Name and Key because we will use these in the next search. Click the Exports icon to export the list as a CSV file for future reference, if desired.
    
    

    Open

    

    Figure 11  Graph Queries page, Containers results in table format, truncated
    
    

11. 17.  Note at the top of Figure 11, the Query Builder utility has created a Gremlin query. We could have performed the same search with the same results by going to the Raw Query mode and entering this query directly
    
    g.V().has('sLabel','Container').where(outE().has('sLabel','ownedBy').inV().has('name','Syndeia Repository'))

     

12. The next part of the third task is to generate a list of all Relations within a specific Syndeia Project.
    
    

    1. We can search by Container Name (“Dirk Sandbox 16”) or Key (DZSB16), which we got from the table in Figure 11. Generally, it is better to search by Key, which is unique within the Syndeia Cloud database, rather than Name, which is not unique.
       
       

    2. If we use Query Builder, we select Relation from the pull-down menu under Label, as in Figure 12. Remember, the Syndeia Projects contain relations, not artifacts.
       
       

       Open

       

       Figure 12  Query Builder, Artifact search
       
       

    3. To restrict the list of Relations to a specific Syndeia Project, we click Filters. We will filter by the Container Key, so we select Container from the pull-down menu at the top marked Property of. Under Property Key, we select the sKey property and under Property Value, we enter DZSB16, which we took from the table in Figure 11.  After we click the Plus (+) icon, the Filters window should look like Figure 13. Click Close.
       
       

       Open

       

       Figure 13  Query Builder Filters window, filter by Container sKey
       
       

13. Back on the Graph Queries page, click Run. The results, a list of all Relations in Container DZSB16, which is owned by the Syndeia Repository, may be displayed in table form as in Figure 14. Note that all relations within the project appear, not just those with an Aras artifact at one end.
    
    

    Open

    

    Figure 14  Graph Queries page, Relations (Edges) results in table format, truncated
    
    

14. The final step is to identify the Aras SysML elements that participate in these relations, but this cannot be done in Query Builder alone. Note at the top of Figure 14, the Query Builder utility has created a Gremlin query.

     

    g.E().has('sLabel','Relation').has('container','DZSB16')

    We will use the Gremlin query language to append an additional condition. First, we will add an additional traversal step to go to the vertices at the end of the relations. Since we don’t know whether the Aras requirement will have an incoming or outgoing relation in the Syndeia project, we use the bothV() step to cover both ends.

     

    g.E().has('sLabel','Relation').has('container','DZSB16').bothV()

    Next, we will check all vertices for ArtifactType. Going back to the table in Figure 5, we choose Aras Part, ART-TYPE447.

     

    g.E().has('sLabel','Relation').has('container','DZSB16').bothV().has(‘type‘,‘ART-TYPE447‘)

    If we select Raw Query and enter this in the Gremlin Query field, we generate the table in Figure 15, showing all Aras SysML elements of ART-TYPE447 used in the Syndeia Project DZSB16.
    
    

    Open