Training

Service Provider

CCIE Service Provider

Introduction

Cisco CCIE Service Provider certification is for expert-level SP network engineers who bring the knowledge and skill to build an extensible Service Provider infrastructure to deliver rich managed services. CCIE Service Provider training covers (but is not limited to) the use of these topics: Service Provider Architecture and Evolution, Core Routing, Service Provider Based Services, Access and Aggregation, High Availability and Fast Convergence. This training will provide you with profound technical knowledge to design and implement complex solutions. The eight-hour lab exam tests your ability to configure actual equipment and troubleshoot the network in a timed test situation. You must make an initial attempt of the CCIE lab exam within 18-months of passing the CCIE written exam. If you do not pass the lab exam within three years of passing the written exam, you must retake the written exam before being allowed to attempt the lab exam again.

Course Highlights

Signellent's expert instructor led course is designed to be 90 hours to cater to both working and upcoming professionals. We pride ourselves in providing our students with a high success rate by highlighting the goals from day one. Our major course highlights are as below,

  • The course is based on CISCO guidelines
  • Dedicated attention by instructors to Monitoring and evaluate candidates' progress on a daily basis
  • Daily lab exercises to give extensive familiarity with the equipment
  • Regular evaluation
  • Industry Experienced CISCO Certified instructors
  • The CCIE module is designed to meet the objective of the CCIE program.
  • The course is customized keeping in mind the ultimate aim of achieving technology proficiency and CCIE certification.
  • Dedicated Professional to manage, track and evaluate the candidate's performance from registration to completion.
  • This course is especially beneficial for candidates who aim at building academic knowledge that is supplemented by applied lab exercises.
  • 90 Hours, of intensive training+ rigorous lab exercises.
  • Course kits contains reference material and add ons to enable students prepare better.
  • Apt balance of theoretical and practical application
  • Customized tests at the end of course to ensure best results.
  • Stern passing standards with progress report of each candidate.
  • Facility of Lab on cloud for students who want to practice remotely
  • Students can attend the same lecture numerous times till they feel comfortable with the topic.
Course Objectives

Upon completion of this course, candidates will be able to meet the following objectives:

  • Given a network specification that calls for simplifying IP address management at branch offices by centralizing addresses, select and configure the appropriate services.
  • Given a network specification calling for a scalable routed network that includes link state protocols and redistribution, implement the appropriate technologies.
  • Given a network specification calling for either a single or a multi-homed interconnection into an ISP's BGP network, configure the edge routers to properly interconnect into the BGP cloud.
  • Given a network specification calling for controlling access to networks or devices, or for minimizing overhead traffic, select and configure the appropriate access list features.
  • Given various network specifications calling for multiple routed and routing protocols, implement case studies that reflect a scalable internetwork.
  • Expertise level skills required of a Network Engineer to design, configure, optimize, diagnose, and troubleshoot a complex highly available Service Provider network infrastructure.
  • Expertise in IPv4 and IPv6 core, aggregation/edge, remote access technologies, Layer 2 and Layer 3 VPNs, plus managed services traversing an IP core networks.
  • They also have an overall knowledge in security, virtualization and mobility technologies.
COURSE TOPICS

Following Topics will be covered in CCIE Service Provider Course.

SERVICE PROVIDER ARCHITECTURE AND EVOLUTION:

  • Service Provider Architecture Concepts.
  • Describe network architecture component and Service Provider network domain, for example, PE, P, CE, Metro Ethernet Core, and Aggregation.
  • Describe platform architecture components, for example, RP, Line Cards, and Fabric Crossbar.
  • Describe Cisco IOS-XR Software architecture components, for example, System Manager and XR Kernel.
  • Virtualization Concepts.
  • Describe basic physical router virtualization, for example, SDR and nV.
  • Describe basic network function virtualization, for example, XRv/CSR1000v.
  • Mobility Concepts.
  • Describe basic Service Provider network mobility infrastructure, for example, RAN, Backhaul, and Core.

CORE ROUTING:

  • Interior Gateway Protocol (IGP).
  • Describe, implement, and troubleshoot IS-IS.
  • Describe, implement, and troubleshoot OSPFv2 and OSPFv3.
  • Describe and optimize IGP scale and performance.
  • Border Gateway Protocol (BGP).
  • Describe, implement, and troubleshoot IBGP, EBGP, and MP-BGP.
  • Describe, implement, and troubleshoot BGP route policy enforcement.
  • Describe BGP path attribute.
  • Describe and optimize BGP scale and performance.
  • Describe, implement, and troubleshoot advanced BGP features, for example, add-path and BGP LS.
  • Multiprotocol Label Switching (MPLS).
  • Describe MPLS forwarding and control plane mechanisms.
  • Describe, implement, and troubleshoot LDP.
  • Describe and optimize LDP scale and performance.
  • MPLS Traffic Engineering.
  • Describe, implement, and troubleshoot RSVP.
  • Describe, implement, and troubleshoot ISIS and OSPF extensions.
  • Describe, implement, and troubleshoot MPLS TE policy enforcement.
  • Describe MPLS TE attributes.
  • Describe and optimize MPLS TE scale and performance.
  • Describe MPLS advanced features, for example, Segment Routing, G-MPLS, MPLS-TP, and MPLS-TE Inter-AS.
  • Multicast.
  • Describe, implement, and troubleshoot PIM (PIM-SM, PIM-SSM, and PIM-BIDIR).
  • Describe, implement, and troubleshoot RP (Auto-RP, BSR, Static, Anycast RP, and MSDP).
  • Describe, implement, and troubleshoot mLDP (including mLDP profiles from 0 to 9).
  • Describe P2MP TE.
  • Describe and optimize multicast scale and performance.
  • Quality of Service (QoS).
  • Describe, implement, and troubleshoot classification and marking.
  • Describe, implement, and troubleshoot congestion management and scheduling, for example, policing, shaping, and queuing.
  • Describe, implement, and troubleshoot congestion avoidance.
  • Describe, implement, and troubleshoot MPLS QoS models (MAM, RDM, Pipe, Short Pipe, and Uniform).
  • Describe, implement, and troubleshoot MPLS TE QoS (CBTS, PBTS, and DS-TE.

SERVICE PROVIDER BASED SERVICES:

  • Carrier Ethernet.
  • Describe, implement, and troubleshoot E-LINE, for example, VPWS.
  • Describe, implement, and troubleshoot E-LAN and E-TREE, for example VPLS and H-VPLS.
  • Describe EVPN (EVPN-VPWS and PBB EVPN).
  • Describe IEEE 802.1ad (Q-in-Q), IEEE 802.1ah (Mac-in-Mac), and ITU G.8032 (REP).
  • L3VPN.
  • Describe, implement, and troubleshoot L3VPN.
  • Describe, implement, and troubleshoot Inter-AS L3VPN.
  • Describe, implement, and troubleshoot Multicast VPN.
  • Describe, implement, and troubleshoot Unified MPLS and CSC.
  • Describe, implement, and troubleshoot shared services, for example, Extranet and Internet.
  • Access.
  • Overlay VPN.
  • Describe, implement, and troubleshoot L2TPv3.
  • Describe, implement, and troubleshoot LISP.
  • Describe, implement, and troubleshoot GRE and mGRE based VPN.
  • Internet Service.
  • Describe, implement, and troubleshoot Internet Peering and Transit.
  • Describe, implement, and troubleshoot IPv6 transition mechanism, for example, NAT44, NAT64, 6RD, and DS Lite.
  • Describe, implement, and troubleshoot Internet peering route and transit policy enforcement.

ACCESS AND AGGREGATION:

  • Transport and Encapsulation Technologies.
  • Describe transport technologies, for example, optical, xDSL, DOCSIS, TDP, and GPON.
  • Describe, implement, and troubleshoot Ethernet technologies.
  • Describe link aggregation techniques.
  • PE-CE Connectivity.
  • Describe, implement, and troubleshoot PE-CE routing protocols, for example, static, OSPF, and BGP.
  • Describe, implement, and troubleshoot route redistribution.
  • Describe, implement, and troubleshoot route filtering.
  • Describe, implement, and troubleshoot loop prevention techniques in Multihomed environments.
  • Describe, implement, and troubleshoot end-to-end fast convergence.
  • Describe, implement, and troubleshoot Multi-VRF CE.
  • Describe Broadband Forum TR-101, for example, Trunk N:1 and Trunk 1:1.
  • Quality of Service (QoS).
  • Describe, implement, and troubleshoot classification and marking.
  • Describe, implement, and troubleshoot congestion management and scheduling, for example, policing, shaping, and queuing.
  • Describe, implement, and troubleshoot congestion avoidance.
  • Describe Link Fragmentation (LFI), cRTP, and RTP.
  • Multicast.
  • Describe, implement, and troubleshoot IGMP and MLD.
  • Describe, implement, and troubleshoot PIM.
  • Describe, implement, and troubleshoot RP.
  • Describe and optimize multicast scale and performance.

HIGH AVAILABILITY AND FAST CONVERGENCE:

  • System Level HA.
  • Describe Multichassis/clustering HA.
  • Describe, implement, and troubleshoot SS0/NSF, NSR, and GR.
  • Describe, implement, and troubleshoot IGP-LDP Sync.
  • Describe, implement, and troubleshoot LDP Session Protection.
  • Layer 1/2/3 Failure Detection Techniques.
  • Describe Layer 1 failure detection.
  • Describe, implement, and troubleshoot Layer 2 failure detection.
  • Describe, implement, and troubleshoot Layer 3 failure detection.
  • Routing/Fast Convergence.
  • Describe, implement, and optimize IGP convergence.
  • Describe, implement, and optimize BGP convergence.
  • Describe, implement, and optimize IP FRR and TR FRR.

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