Nokia NSP Enhanced
Optimization
Course number: OS00112-W
Course duration: 2 hours (Web-Based Training)
Price: €200
Course overview
This self-paced e-learning course explores how the NSP’s telemetry-based optimization can automatically steer traffic based on changing conditions in the network. This closed-loop automation approach greatly improves 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 important 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 important 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 NSP’s Path Control 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”
- Prerequisites for implementing closed-loop automation
- Benefits of closed-loop automation
Module 2 – Telemetry
- Telemetry Overview
- Telemetry Optimization
- Selection criteria for rerouting LSPs
- Flow collection telemetry
- Explain the different selection criteria for rerouting LSPs
- Describe the Flow Collection Telemetry workflow
Module 3 – NSP Path Control Function
- Introduction to NSP’s Path Control Function
- Latency-based telemetry optimization requirements, setup and parameters
- Utilization-based telemetry optimization requirements, setup and parameters
Module 4 – Use Cases
- Enhanced Optimization lab topology
- Demonstrate LSP latency-based telemetry optimization
- Demonstrate LSP utilization-based telemetry optimization