This five-day course is designed to cover best practices, theory, and design principles for Wide Area Networks (WAN) design including WAN interconnects, security considerations, virtualization, and management/operations. This course covers both service provider and enterprise WAN design.
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- Duration: 5 hours
Objectives
After successfully completing this course, you should be able to:
• Describe high level concepts about the different WAN architectures.
• Identify key features used to interconnect WANs.
• Describe key high level considerations about securing and monitoring a WAN deployment.
• Outline high level concepts for implementing WANs.
• Explain various methods of WAN connectivity.
• Describe basic MPLS concepts as they are related to WANs.
• Identify basic Ethernet concepts as they are related to WANs.
• Describe key concepts of network availability.
• Explain high availability features and protocols.
• Describe the key aspects of class of service.
• Describe how core WAN technologies are used to solve specific problems facing network designers.
• Discuss core routing requirements.
• Explain how to design a high performance MPLS WAN core.
• Define CoS requirements for the WAN core.
• Discuss BGP peering and path selection.
• Design MPLS Layer 2 and Layer 3 services.
• Design metro Ethernet networks.
• Understand role of class of service in provider edge.
• Describe Next-generation MVPNs.
• Explain how enterprise WAN technologies are used to solve specific problems facing network designers.
• Outline various solutions regarding campus and branch WANs.
• Explain how data centers are interconnected through WANs.
• Identify various solutions regarding data center WAN interconnection.
• Describe the benefits and use cases for EVPN.
• Describe security concepts regarding WANs.
• Explain the differences between LAN security concepts and WAN security concepts.
• Explain VPN-related concepts regarding WANs.
• Describe methods to manage WANs.
• Discuss key concepts related to WAN management.
• Explain how virtualization and SDN can be leveraged in the WAN.
• Describe various SDN products and how they are used in the WAN.
• Describe MX, SRX, T, PTX, ACX, QFX, EX, and NFX Series devices and the basics of how they relate to WAN solutions.
• Describe high level concepts about the different WAN architectures.
• Identify key features used to interconnect WANs.
• Describe key high level considerations about securing and monitoring a WAN deployment.
• Outline high level concepts for implementing WANs.
• Explain various methods of WAN connectivity.
• Describe basic MPLS concepts as they are related to WANs.
• Identify basic Ethernet concepts as they are related to WANs.
• Describe key concepts of network availability.
• Explain high availability features and protocols.
• Describe the key aspects of class of service.
• Describe how core WAN technologies are used to solve specific problems facing network designers.
• Discuss core routing requirements.
• Explain how to design a high performance MPLS WAN core.
• Define CoS requirements for the WAN core.
• Discuss BGP peering and path selection.
• Design MPLS Layer 2 and Layer 3 services.
• Design metro Ethernet networks.
• Understand role of class of service in provider edge.
• Describe Next-generation MVPNs.
• Explain how enterprise WAN technologies are used to solve specific problems facing network designers.
• Outline various solutions regarding campus and branch WANs.
• Explain how data centers are interconnected through WANs.
• Identify various solutions regarding data center WAN interconnection.
• Describe the benefits and use cases for EVPN.
• Describe security concepts regarding WANs.
• Explain the differences between LAN security concepts and WAN security concepts.
• Explain VPN-related concepts regarding WANs.
• Describe methods to manage WANs.
• Discuss key concepts related to WAN management.
• Explain how virtualization and SDN can be leveraged in the WAN.
• Describe various SDN products and how they are used in the WAN.
• Describe MX, SRX, T, PTX, ACX, QFX, EX, and NFX Series devices and the basics of how they relate to WAN solutions.
Course Content
Day 1
Chapter 1: Course Introduction
Chapter 2: Overview of WAN Design
• WAN Design Overview
• WAN Domains
• Management, Operations, and Security
• Implementation Considerations
Chapter 3: WAN Connectivity
• Public and Private
• Service Provider
• Enterprise
Chapter 4: Network Availability and Traffic Prioritization
• Network Availability
• Class of Service
• Lab: Network Availability and CoS Design
Day 2
Chapter 5: Service Provider Core WAN
• WAN Core Overview
• Core Routing
• MPLS Design
• CoS Considerations
• Lab: WAN Core Design
Day 3
Chapter 6: Service Provider Edge WAN
• Provider Edge
• Lab: Service Provider Edge—VPN Design
• Access and Aggregation Edge
• Services
• CoS Considerations
• Multicast
• Lab: Service Provider Edge—Services Design
Day 4
Chapter 7: Enterprise WAN
• Enterprise WAN Overview
• WAN Topologies
• Campus and Branch
• CoS Considerations
• Large Enterprise Design
s • Lab: Enterprise WAN Design
Chapter 8: Data Center WAN
• WAN Overview
• EVPN
• Lab: Data Center WAN Design
Chapter 9: WAN Security
• Security Overview
• WAN Versus LAN
• Service Provider Core WAN Security
• Service Provider Edge WAN Security
• Enterprise WAN Security
• Lab: Security Design
Day 5
Chapter 10: WAN Management
• Best Practices and Considerations
• OoB Management Design
• Junos Space
• Juniper WAN Automation
• Lab: WAN Management Design
Chapter 11: WAN Virtualization and SDN
• SDN Overview
• NorthStar
• Contrail
• SD-WAN
• Lab: SDN Design
Chapter 12: WAN Device Portfolio
• Platform and Junos Overview
• MX Series
• SRX Series
• PTX and T Series
• ACX Series
• QFX Series
• EX Series
• NFX Series
Chapter 1: Course Introduction
Chapter 2: Overview of WAN Design
• WAN Design Overview
• WAN Domains
• Management, Operations, and Security
• Implementation Considerations
Chapter 3: WAN Connectivity
• Public and Private
• Service Provider
• Enterprise
Chapter 4: Network Availability and Traffic Prioritization
• Network Availability
• Class of Service
• Lab: Network Availability and CoS Design
Day 2
Chapter 5: Service Provider Core WAN
• WAN Core Overview
• Core Routing
• MPLS Design
• CoS Considerations
• Lab: WAN Core Design
Day 3
Chapter 6: Service Provider Edge WAN
• Provider Edge
• Lab: Service Provider Edge—VPN Design
• Access and Aggregation Edge
• Services
• CoS Considerations
• Multicast
• Lab: Service Provider Edge—Services Design
Day 4
Chapter 7: Enterprise WAN
• Enterprise WAN Overview
• WAN Topologies
• Campus and Branch
• CoS Considerations
• Large Enterprise Design
s • Lab: Enterprise WAN Design
Chapter 8: Data Center WAN
• WAN Overview
• EVPN
• Lab: Data Center WAN Design
Chapter 9: WAN Security
• Security Overview
• WAN Versus LAN
• Service Provider Core WAN Security
• Service Provider Edge WAN Security
• Enterprise WAN Security
• Lab: Security Design
Day 5
Chapter 10: WAN Management
• Best Practices and Considerations
• OoB Management Design
• Junos Space
• Juniper WAN Automation
• Lab: WAN Management Design
Chapter 11: WAN Virtualization and SDN
• SDN Overview
• NorthStar
• Contrail
• SD-WAN
• Lab: SDN Design
Chapter 12: WAN Device Portfolio
• Platform and Junos Overview
• MX Series
• SRX Series
• PTX and T Series
• ACX Series
• QFX Series
• EX Series
• NFX Series
This five-day course is designed to cover best practices, theory, and design principles for Wide Area Networks (WAN) design including WAN interconnects, security considerations, virtualization, and management/operations. This course covers both service provider and enterprise WAN design.
Additional information
date | 26 Nov 2019 |
---|---|
locations | Sydney Juniper JNCIA |
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