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Nokia NSP Enhanced Optimization

Course Number: OS00112-W-2000
Course Duration:  2 hours (Web-Based Training)
Price: $250 US

Course Overview

This eLearning course explores how the NSP telemetry-based optimization can automatically steer traffic based on changing conditions in the network.  This closed-loop automation approach significantly improves the utilization of network resources and decreases operational intervention.  Discovery how telemetry collects reliable and efficient data, thus forming the basis of closed-loop automation.  Learn the two forms of Enhanced Optimization, latency-based and utilization-based, along with the data requirements for each, such as gRPC subscriptions and scheduled OAM tests.  Understand essential parameters that control when and how LSPs are automatically optimized.  Finally, view step-by-step use case videos that show: 1) Latency based optimization to assure essential services are routed over a low latency path; 2) Utilization based optimization to reduce the probability of congestion discards and run networks at high capacities. 

Course Objectives

After completing the course, students should be able to:

  • Define “closed-loop automation”
  • Describe telemetry and its advantages over traditional data collection mechanisms
  • Explain the different types of telemetry optimization
  • Identify the sources for telemetry collection
  • Describe the attributes that can minimize rerouting of paths

 

 

  • Explain flow collection telemetry
  • Describe the IP/MPLS Optimization application functionalities
  • Explain latency based optimization requirements, setup and parameters
  • Explain utilization based optimization requirements, setup and parameters
  • Demonstrate LSP latency based optimization using telemetry
  • Demonstrate LSP utilization based optimization using telemetry

Course Modules

  • Module 1 – Closed-loop automation
    • Define “closed-loop automation”
    • Describe the prerequisites for implementing closed-loop automation
    • List the benefits of closed-loop automation
  • Module 2 – Telemetry
    • Define “telemetry”
    • List the benefits of telemetry implementation
    • Describe the types of optimization using telemetry
    • List the telemetry data sources
    • Explain the different selection criteria for rerouting LSPs
    • Describe the Flow Collection Telemetry workflow
       


 

  • Module 3 – IP/MPLS Optimization application
    • Describe the IP/MPLS Optimization application functionalities
    • Demonstrate how to create and assign a Path Profile policy
    • Explain latency based optimization requirements, setup and parameters
    • Explain utilization based optimization requirements, setup and parameters
  • Module 4 – Use Cases
    • Demonstrate LSP latency based optimization using telemetry
    • Demonstrate LSP utilization based optimization using telemetry
       

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