JNCIP Service Provider
For network engineers who need to increase their value to employers and stay current with advances in networking knowledge and skills, the JUNIPER JNCIP service provider routing and switching certification program provides the education and training required for installing, monitoring, and troubleshooting network infrastructure products designed by the industry leader in IP networking.
JNCIP Service Provider
For network engineers who need to increase their value to employers and stay current with advances in networking knowledge and skills, the JUNIPER JNCIP service provider routing and switching certification program provides the education and training required for installing, monitoring, and troubleshooting network infrastructure products designed by the industry leader in IP networking.
Course Introduction
The Advanced Junos Service Provider Routing (AJSPR) course is designed to provide students with detailed coverage of OSPF, IS-IS, BGP, and routing policy. Through demonstrations and hands-on labs, students will gain experience in configuring and monitoring the Junos operating system and in monitoring device and protocol operations.This course uses Juniper Networks MX Series 3D Universal Edge Routers for the hands-on component, but the lab environment does not preclude the course from being applicable to other Juniper hardware platforms running the Junos OS.
The Junos Class of Service (JCOS) course provides students with advanced class-of-service (CoS) knowledge and configuration examples. The course begins with an overview of CoS before going into classification, policing, scheduling, and rewriting. The course then covers class-based forwarding and finishes with a case study
The Junos Multicast Routing (JMR) course is designed to provide students with detailed coverage of multicast protocols including Internet Group Management Protocol (IGMP), Protocol Independent Multicast–Dense Mode (PIM-DM), Protocol Independent Multicast–Sparse Mode (PIM-SM), Bidirectional PIM, and Multicast Source Discovery Protocol (MSDP).
The Junos MPLS and VPNs (JMV) is designed to provide students with MPLS-based virtual private network (VPN) knowledge and configuration examples. The course includes an overview of MPLS concepts such as control and forwarding plane, RSVP Traffic Engineering, LDP, Layer 3 VPNs, BGP Layer 2 VPNs, LDP Layer 2 Circuits, and virtual private LAN service (VPLS), carrier-of-carrier VPNs. This course also covers Junos operating system-specific implementations of Layer 2 control instances and active interface for VPLS.
Course Highlights
This 5 days (Weekdays – 8hrs.) OR 5-weeks (Sunday/Saturday) instructor led JNCIP-SP course is designed to provide professionals with extensive networking knowledge to accomplish their day to day job and JNCIP-SP certifications. The key to a high success rate is based on the program’s objectives as follows:
- Course contents are based on JUNIPER guidelines
- Dedicated Monitoring to evaluate candidates’ progress
- Extensive hands-on lab exercises
- Regular evaluation
- Industry Experienced Certified instructors
- The JNCIP-SP module is designed to meet the objective of the JNCIP-SP program.
- The course is customized keeping in mind the ultimate aim of achieving technology expertise and JNCIP-
- SP certification.
- Assigned project manager will manage this program and drive the program from its registration stage to monitoring and tracking of the candidates’ performance.
- Curriculum is based on JNCIP-SP course outlines.
- The Instructor-led certified course is designed for the JNCIP-SP candidates with an aim to build theoretical knowledge supplemented by ample hands-on lab exercises.
- 5 week or 5 days, of intensive training.
- Courseware includes course kits and other reference material to enable students to prepare for JNCIP-SP certification exams.
- Optimal balance of theory classes and practical labs every week to ensure maximum absorption of
- technology by participants.
- Customized tests at the end of course to be attempted by every participant.
- Stringent passing standards with progress report of each participant.
- Facility of Lab on cloud available.(based on booking).
- Repeating of lectures allowed.
Course Objectives
After successfully completing this course, you should be able to:
- Describe the various OSPF link-state advertisement (LSA) types.
- Explain the flooding of LSAs in an OSPF network.
- Describe the shortest-path-first (SPF) algorithm.
- List key differences between OSPFv2 and OSPFv3.
- Describe OSPF area types and operations.
- Explain the concepts and operation of IS-IS.
- Describe various IS-IS link-state protocol data unit (LSP) types.
- List IS-IS adjacency rules and troubleshoot common adjacency issues.
- Configure and monitor IS-IS.
- Display and interpret the link-state database (LSDB).
- Perform advanced IS-IS configuration options.
- Implement IS-IS routing policy.
- Describe basic BGP operation.
- List common BGP attributes.
- Explain the route selection process for BGP.
- Describe how to alter the route selection process.
- Configure some advanced options for BGP peers.
- Describe various BGP attributes in detail and explain the operation of those attributes.
- Manipulate BGP attributes using routing policy.
- Understand the history and evolution of CoS.
- Identify the CoS fields in various packet headers.
- List the CoS processing stages on devices running the Junos OS.
- Identify the default CoS settings on devices running the Junos OS.
- Configure and verify behavior aggregate (BA) and multifield (MF) classification.
- Identify the components of IP multicast.
- Explain how IP multicast addressing works.
- Describe the need for reverse path forwarding (RPF) in multicast.
- Explain the role of IGMP and describe the available IGMP versions.
- Describe rendezvous point (RP) discovery options.
- Describe bidirectional PIM.
- Configure and monitor rendezvous point discovery mechanisms.
- Configure bidirectional PIM sparse mode.
- Explain the purpose and operation of MSDP.
- Describe the usage of MSDP within a single PIM domain with anycast-RP.
- Describe the usage of MSDP across multiple PIM domains.
- Explain common terms relating to MPLS.
- Explain routers and the way they forward MPLS packets.
- Explain packet flow and handling through a label-switched path (LSP).
- Describe the configuration and verification of MPLS forwarding.
- Describe the differences between Layer 2 VPNs and Layer 3 VPNs.
- Explain the features of provider-provisioned VPNs supported by the Junos OS.
- Explain the roles of Provider (P) routers, Provider Edge (PE) routers, and Customer Edge (CE) routers.
- Describe the VPN-IPv4 address formats.
- Describe the route distinguisher use and formats.
- Explain the RFC 4364 control flow.
- Create a routing instance, assign interfaces, create routes, and import and export routes within the routing
- instance using route distinguishers and route targets.
- Explain the purpose of BGP extended communities and how to configure and use these communities.
- Describe the steps necessary for proper operation of a PE to CE dynamic routing protocol.
- Describe the learning and forwarding process of VPLS.
- Describe the potential loops in a VPLS environment.
- Configure BGP and LDP VPLS.
- Troubleshoot VPLS.
- Describe the Junos OS support for carrier-of-carriers.
- Describe the Junos OS support for interprovider VPNs.
Course Topics
OSPF
- Describe the concepts, operation and functionality of OSPFv2 or OSPFv3
- OSPF area types and operations
- LSA flooding through an OSPF multi-area network
- DR/BDR operation
- SPF algorithm
- Metrics, including external metric types
- Summarize and restrict routes
- Virtual links
- OSPFv2 vs OSPFv3
- Given a scenario, demonstrate knowledge of how to configure or monitor single-area and multi-area OSPF
- Implement OSPF routing policy
IS-IS
- Describe the concepts, operation, or functionality of IS-IS
- IS-IS areas/levels and operations
- LSP flooding through an IS-IS multi-area network
- DIS operation
- SPF algorithm
- Metrics, including wide metrics
- Route summarization and route leaking
- Given a scenario, demonstrate knowledge of how to configure or monitor single-area and multi-area IS-IS
- Implement IS-IS routing policy
BGP
- Describe the concepts, operation, or functionality of BGP
- BGP route selection process
- Next hop resolution
- BGP attributes – concept and operation
- BGP communities
- Regular expressions
- Multipath
- Multihop
- Load balancing
- Advanced BGP options
- BGP route damping
- Multiprotocol BGP
- Describe the concepts, operation or functionality of BGP scaling mechanisms
- Route reflection
- Confederations
- Given a scenario, demonstrate knowledge of how to configure or monitor BGP
- Implement BGP routing policy
Class of Service (CoS)
- Describe the concepts, operation, or functionality of Junos CoS
- CoS processing on Junos devices
- CoS header fields
- Forwarding classes
- Classification
- Packet loss priority
- Policers, including tricolor marking and hierarchical policers
- Schedulers
- Drop profiles
- Shaping
- Rewrite rules
- Hierarchical scheduling (H-CoS) characteristics (high-level only)
- Given a scenario, demonstrate knowledge of how to configure or monitor CoS
IP Multicast
- Describe the concepts, operation, or functionality of IP multicast
- Components of IP multicast, including multicast addressing
- IP multicast traffic flow
- Any-Source Multicast (ASM) versus Source-Specific Multicast (SSM)
- RPF – concept and operation
- IGMP
- PIM dense-mode and sparse-mode
- Rendezvous point (RP) – concept, operation, discovery, election
- SSM – requirements, benefits, address ranges
- MSDP, including single and multi-PIM domains
- Anycast RP
- Routing policy and scoping
- Given a scenario, demonstrate knowledge of how to configure or monitor IGMP, PIM-DM, PIM-SM (including SSM) and MSDP
- Implement IP multicast routing policy
Advanced MPLS
- Describe the concepts, operation, or functionality of MPLS
- Routing table integration options for traffic engineering
- Routing policy to control path selection
- Advanced MPLS features
- Administrative groups
- Advanced CSPF options
- Implement MPLS routing policy
Layer 3 VPNs
- Describe the concepts, operation, or functionality of Layer 3 VPNs
- Traffic flow – control and data planes
- Full mesh vs. hub-and-spoke topology
- VPN-IPv4 addressing
- Route distinguishers
- Route targets
- Route distribution
- Site of origin
- Sham links
- vrf-table-label
- Layer 3 VPN scaling
- IPv6 Layer 3 VPNs
- Layer 3 VPN Internet access options
- Given a scenario, demonstrate knowledge of how to configure or monitor the components of Layer 3 VPNs
- Describe the concepts, operation or functionality of multicast VPNs
- Next-generation MVPNs (NG-MVPN)
- Flow of control and data traffic in an MVPN
- Describe Junos support for carrier-of-carriers or interprovider VPN models
Layer 2 VPNs
- Describe the concepts, operation, or functionality of BGP Layer 2 VPNs
- Traffic flow – control and data planes
- Forwarding tables
- Connection mapping
- Layer 2 VPN NLRI
- Route distinguishers
- Route targets
- Layer 2 VPN scaling
- Describe the concepts, operation, or functionality of LDP Layer 2 circuits
- Traffic flow – control and data planes
- Virtual circuit label
- Layer 2 interworking
- Describe the concepts, operation, or functionality of VPLS
- Traffic flow – control and data planes
- BGP VPLS label distribution
- LDP VPLS label distribution
- Route targets
- VPLS Multihoming
- Site IDs
- Describe the concepts, operation, or functionality of EVPN
- Traffic flow – control and data planes
- MAC learning and distribution
- EVPN Multihoming
- BGP EVPN label distribution
- Given a scenario, demonstrate knowledge of how to configure or monitor Layer 2 VPNs
- BGP Layer 2 VPNs
- LDP Layer 2 circuits
- EVPNs
- VPLS
Lab Topics
Not Available
Virtual Classroom
- Instructor led online training is an ideal vehicle for delivering training to individuals anywhere in the world at any time.
- This innovative approach presents live content with instructor delivering the training online.
- Candidates will be performing labs remotely on our labs on cloud in presence of an online instructor.
- Rstforum uses microsoft lync engine to deliver instructor led online training.
- Advances in computer network technology, improvements in bandwidth, interactions, chat and conferencing, and realtime audio and video offers unparalleled training opportunities.
- Instructor led online training can helps today’s busy professionals to perform their jobs and upgrade knowledge by integrating self-paced instructor led online training in their daily routines.
Miscellaneous
- Minimum batch size required for batch is 10 participants in the this course.
- The RST Forum reserves the right to cancel/postpone the class.
- Course schedule will be provided before commencement of the course.
- Certificate of participation will be awarded to participants with a minimum 90% attendance.
- All attendees are to observe the Copyright Law on intellectual properties such as software and courseware from respective vendors.
- The RST Forum reserves the right to include external participants in the program either for the entire course or individual courses.
- The RST Forum reserves the right to change/alter the sequence of courses. RST FORUM published Book would be given at 50% discounted rate to the forum students.