Child pages
  • Agenda Plan of 2019 March 18-22 ONF OIMT & OTCC Sydney Meeting

Versions Compared


  • This line was added.
  • This line was removed.
  • Formatting was changed.


  1. #8 Equipment enhancements (TAPI equipment modeling) (Color code: This color means Have material already)
  2. #35 LTP port (TAPI integration)
  3. #9 IP switching, #53 IP Segment routing (to support 5G, complement SG15 work) (Kam)
  4. #26 Intent/Constraint#55 TOSCA Profile (Color code: This color means Ready to go) (CH)
  5. #37 Spec re-work, #44 Refactor LTP Spec to be Comp-Sys Spec, #56 Simplied Spec model, #58 Specification Pattern for new comer, including Thorsten's (Core model extension) work request (TAPI critical)
  6. #13 Model refactoring (Color code: This color means New agenda item)
  7. #41 Identity model investigation + other global class attributes (state etc.) (Ready to go) (CH)
  8. #39 Event driven solution investigation, including Streaming, #43 Operation pattern for general task#57 Job Task process model, (CH) #55 TOSCA Profile
  9. (related to #54) Managing Cloud Native (Kubernetes, Istio, Containers)
  10. Catalog consideration in TMF, MEF, ONAP, TOSCA

NOTE: Description of OIMT work items are in oimt2018.KL.001.14_oimt-work-items.xlsx

  • Key TAPI topics
  1. Enhancement (including re-factoring) of the connectivity and topology models (KS, AM)
  2. Routing constraint & Resilience (need this for 2.2), related to #26 (AM)
  3. How to use the topology Pacs in TAPI (ND)
  4. Specification model for Catalog driven API (KS)
  5. Configuration v state, CRUD pattern, operation patterns, intent, RPC v Action (KS)
  6. Revisit the TAPI virtual network (What is the difference between VN Service End Point vs Service Interface Point), Service v resource (ND)
  7. Examine the storage pattern and the model that relates the views (CH)
  8. Examine Link capacity allocation pattern (MB). Work towards the goal of Virtual Network
    • The point problem is relatively straight forward
    • The two ended link brings in the most basic form of graph
    • We can build from the above towards more complex graphs towards the full network problem
    • Eventually this will lead to system - system mapping (PC graphs)
  9. Multilayer transitional link scenario (need this before 2.2) (AM)
  10. ONAP usage of TAPI