Juniper Networks Certified Professional Service Provider Routing and Switching Bootcamp 2, JMF, JL2V, and JL3V (JNCIP-SP BC2)

About This Course

This bootcamp combines Junos MPLS Fundamentals (JMF), Junos Layer 2 VPNs (JL2V), and Junos Layer 3 VPNs (JL3V) into five consecutive days of training.  Students can choose to attend the individual classes (JMF, JL2V, or JL3V) or attend the five-day course.

Course Audience

JNCIP-SP BC2 benefits individuals responsible for configuring and monitoring devices running the Junos OS.

Course Prerequisites

JMF: Students should have intermediate-level networking knowledge and should be familiar with the Junos OS command-line interface (CLI). Students should also attend the Introduction to the Junos Operating System (IJOS), Junos Routing Essentials (JRE), and Junos Intermediate Routing (JIR) courses prior to attending this class.

JL2V: Students should have intermediate-level networking knowledge and an understanding of OSPF, IS-IS, BGP, and Junos policy. Students should have experience configuring MPLS label-switched paths using Junos. Students should also attend Introduction to the Junos Operating System (IJOS), Junos Routing Essentials (JRE), Junos Service Provider Switching (JSPX), Junos Intermediate Routing (JIR) and Junos MPLS Fundamentals (JMF) courses prior to attending this class.

JL3V: Students should have intermediate-level networking knowledge and an understanding of OSPF, ISIS, BGP, and Junos policy. Students should have experience configuring MPLS label-switched paths using Junos. Students should also attend the Introduction to the Junos Operating System (IJOS), Junos Routing Essentials (JRE),  Junos Intermediate Routing (JIR) and the Junos MPLS Fundamentals (JMF) courses prior to attending this class.

At Course Completion

Junos MPLS Fundamentals (JMF) COURSE OUTLINE:
After successfully completing this course, you should be able to:

• Describe the history and rationale for MPLS, as well as its basic terminology.
• Explain the MPLS label operations (push, pop, swap) and the concept of label-switched path (LSP).
• Describe the configuration and verification of MPLS forwarding.
• Describe the functionalities and operation of RSVP and LDP.
• Configure and verify RSVP-signaled and LDP-signaled LSPs.
• Select and configure the appropriate label distribution protocol for a given set of requirements.
• Describe the default Junos OS MPLS traffic engineering behavior.
• Explain the Interior Gateway Protocol (IGP) extensions used to build the Traffic Engineering Database (TED).
• Describe the Constrained Shortest Path First (CSPF) algorithm, its uses, and its path selection process.
• Describe administrative groups and how they can be used to influence path selection.
• Describe the default traffic protection behavior of RSVP-signaled LSPs.
• Explain the use of primary and secondary LSPs.
• Describe the operation and configuration of fast reroute.
• Describe the operation and configuration of link and node protection.
• Describe the operation and configuration of LDP loop-free alternate.
• Describe the LSP optimization options.
• Explain LSP priority and preemption.
• Describe the behavior of fate sharing.
• Describe how SRLG changes the CSPF algorithm when computing the path of a secondary LSP.
• Explain how extended admin groups can be used to influence path selection.
• Explain the purpose of several miscellaneous MPLS features.

Junos Layer 2 VPNs (JL2V) COURSE OUTLINE:
After successfully completing this course, you should be able to:

• Define the term virtual private network.
• Describe the business drivers for MPLS VPNs.
• Describe the differences between Layer 2 VPNs and Layer 3 VPNs.
• List advantages for the use of MPLS Layer 3 VPNs and Layer 2 VPNs.
• Describe the roles of a CE device, PE router, and P router in a BGP Layer 2 VPN.
• Explain the flow of control traffic and data traffic for a BGP Layer 2 VPN.
• Configure a BGP Layer 2 VPN and describe the benefits and requirements of over-provisioning.
• Monitor and troubleshoot a BGP Layer 2 VPN.
• Explain the BGP Layer 2 VPN scaling mechanisms and route reflection.
• Describe the Junos OS BGP Layer 2 VPN CoS support.
• Describe the flow of control and data traffic for an LDP Layer 2 circuit.
• Configure an LDP Layer 2 circuit.
• Monitor and troubleshoot an LDP Layer 2 circuit.
• Describe the operation of FEC 129 BGP autodiscovery for Layer 2 VPNs.
• Configure a FEC 129 BGP autodiscovery Layer 2 VPN.
• Monitor and troubleshoot a FEC 129 BGP autodiscovery for Layer 2 VPNs.
• Describe the difference between Layer 2 MPLS VPNs and VPLS.
• Explain the purpose of the PE device, the CE device, and the P device.
• Explain the provisioning of CE and PE routers.
• Describe the signaling process of VPLS.
• Describe the learning and forwarding process of VPLS.
• Describe the potential loops in a VPLS environment.
• Configure BGP, LDP, and FEC 129 BGP autodiscovery VPLS.
• Troubleshoot VPLS.
• Describe the purpose and features of Ethernet VPN.
• Configure Ethernet VPN.
• Monitor and troubleshoot Ethernet VPN.
• Describe the Junos OS support for hierarchical VPN models.
• Describe the Junos OS support for Carrier-of-Carriers VPN Option C.
• Configure the interprovider VPN Option C.
• Describe the Junos OS support for multisegment pseudowire for FEC 129.
• Describe and configure circuit cross-connect (CCC).

Junos Layer 3 VPNs (JL3V) COURSE OUTLINE:
After successfully completing this course, you should be able to:

• Describe the value of MPLS VPNs.
• Describe the differences between provider-provisioned VPNs and customer-provisioned VPNs.
• Describe the differences between Layer 2 VPNs and Layer 3 VPNs.
• List the provider-provisioned MPLS VPN features supported by the Junos OS software.
• Describe the roles of a CE device, PE router, and P router in a BGP Layer 3 VPN.
• Describe the format of the BGP routing information, including VPN-IPv4 addresses and route distinguishers.
• Describe the propagation of VPN routing information within an AS.
• List the BGP design constraints to enable Layer 3 VPNs within a provider network.
• Explain the operation of the Layer 3 VPN data plane within a provider network.
• Create a routing instance, assign interfaces to a routing instance, create routes in a routing instance, and import/export routes from a routing instance using route distinguishers/route targets.
• Describe the purpose of BGP extended communities, configure extended BGP extended communities, and use BGP extended communities.
• List the steps necessary for proper operation of a PE-CE dynamic routing protocol.
• List the troubleshooting and monitoring techniques for routing instances.
• Explain the difference between the bgp.l3vpn table and the inet.0 table of a routing instance.
• Monitor the operation of a CE-PE dynamic routing protocol.
• Explain the operation of a PE multi-access interface in a Layer 3 VPN and list commands to modify that behavior.
• Describe ways to support communication between sites attached to a common PE router.
• Provision and troubleshoot hub-and-spoke Layer 3 VPNs,
• Describe the flow of control traffic and data traffic in a hub-and-spoke Layer 3 VPN.
• Describe QoS mechanisms available in L3VPNs.
• Configure L3VPN over GRE tunnels.
• Describe the RFC 4364 VPN options.
• Describe the carrier-of-carriers model.
• Configure the carrier-of-carriers and "Option C" configuration.
• Describe the flow of control and data traffic in a draft-rosen multicast VPN.
• Describe the configuration steps for establishing a draft-rosen multicast VPN.
• Monitor and verify the operation of draft-rosen multicast VPNs.
• Describe the flow of control traffic and data traffic in a next-generation multicast VPN.
• Describe the configuration steps for establishing a next-generation multicast VPN.
• Describe the configuration steps for establishing a next-generation multicast VPN.
• Monitor and verify the operation of next-generation multicast VPNs.
• Describe the flow of control traffic and data traffic when using MPVNs for Internet multicast.
• Describe the configuration steps for enabling internet multicast using MVPNs.
• Monitor and verify the operation of MVPN internet multicast.