Juniper JNCIS-SP Service Provider JN0-363 Full Course

This Juniper JNCIS-SP Service Provider JN0-363 course is my second course on Juniper Networks.

The Juniper Service Provider JNCIS-SP JN0-363 details are below and the JNCIS-ENT JN0-349 is 90% covered with the Intermediate routing and service provider switching so some additional upskill for the Juniper JN0-349 is also included.

The Juniper Intermediate Routing Section is required and below is a summary of what we will cover:

• Implement static routing within Junos OS

• Implement routing instances within Junos OS

• Describe routing instances

• Configure and share routes between routing instances

• Implement load balancing within Junos OS

• Implement filter-based forwarding within Junos OS

• Implement OSPF within Junos OS

• Deploy OSPF within Junos OS

• Implement BGP within Junos OS

• Deploy BGP within Junos OS

• Implement IP tunneling within Junos OS

• Implement graceful routing and bidirectional forwarding detection within Junos OS

• Implement high availability features—GRES, NSR, and unified ISSU within Junos OS

• Implement VRRP within Junos OS

• Implement IPv6 within Junos

• Implement IS-IS within Junos OS

The Juniper JNCIS-SP JN0-363 Service Provider requires the Service Provider Switching module and we will go through the following:

. Describe the different Ethernet standards organizations.

• Describe the Layer 2 services that are available on the MX Series 3D Ethernet

Universal Edge Routers.

• Describe the function of an Ethernet LAN.

• Describe learning and forwarding in a bridging environment.

• Describe Ethernet frame filtering.

• Implement VLAN tagging.

• Describe and implement MVRP.

• Implement IRB.

• Implement a Layer 2 firewall filter.

• Describe the use of a routing instance.

• Describe the function of a virtual router.

• Describe the function of a virtual switch.

• Describe the usage of logical systems.

• Implement a virtual switch.

• Describe interconnecting routing instances.

• Describe the different IEEE VLAN stacking models.

• Describe the components of provider bridging.

• Configure and monitor provider bridging.

• Explain the purpose of the Spanning Tree Protocol (STP).

• Describe the basic operation of STP, Rapid Spanning Tree Protocol (RSTP),

Multiple Spanning Tree Protocol (MSTP), and VLAN Spanning Tree Protocol

(VSTP).

• Configure and monitor STP, RSTP, MSTP, and VSTP.

• Explain the purpose of bridge protocol data unit (BPDU), loop, and root

protection.

• Describe the basic operation of LAGs and MC-LAGs.

• Configure and monitor LAGs and MC-LAGs.

• Describe the basic functionality of MX Series Virtual Chassis.

• Describe a basic troubleshooting method.

• List common issues that disrupt network operations.

• Identify tools used in network troubleshooting.

• Use available tools to resolve network issues

And last for the Juniper JNCIS-SP JN0-363 Service Provided the MPLS module and we will go through the below content.

• Explain the reasons MPLS was originally created, and the applications offered

by label-switched paths.

• Describe the structure of an MPLS label, the mechanics of the data plane, and

the protocols that can advertise labels.

• Configure static LSPs, verify the routing tables they populate, and explain the

label actions these LSPs perform.

• Explain the purpose and advantages of RSVP, then configure a service provider

network to host RSVP LSPs.

• Configure and verify a basic RSVP label-switched path.

• Explain the purpose of the MPLS traffic engineering database, and create LSPs

that use this database to calculate a path.

• Explain the purpose of RSVP bandwidth reservations, and how to configure an

LSP to reserve bandwidth.

• Explain the use-cases for RSVP LSP priority levels, and configure different

priority levels of a variety of LSPs.

• Explain how the Constrained Shortest-Path First algorithm can calculate trafficengineered paths.

• Explain the messages involved in tearing down, rerouting, and maintaining LSPs

and RSVP sessions.

• Describe how primary and secondary paths can be used in times of link and

node failure.

• Describe the advantages of RSVP local repair paths, and how to configure the

one-to-one method of local repair, otherwise known as fast reroute.

• Explain the mechanics, configuration, and verification of facility backup,

otherwise known as link protection and node-link protection.

• Explain how RSVP LSPs can automatically find and signal better, more optimal

paths.

• Explain how LSPs can gracefully move traffic to new paths with no downtime

to the user.

• Explain the mechanics by which LDP creates a full mesh of label-switched

paths.

• Configure and verify a basic LDP deployment in a service provider network.

• Describe some important LDP enhancements and best practices that increase

the integrity of real-world LDP deployments.

• Explain how to configure LDP to advertise labels for more than just a router's

loopback.

• Explain how segment routing differs from RSVP and LDP, and configure

segment routing as a replacement for LDP.

Extra content to assist in upskilling for the Juniper JNCIS-ENT JN0-349