CCIE® Service Provider (CCIESP)

Duration 5 Days
 
 
COURSE DESCRIPTION
 
The Cisco CCIE Service Provider (CCIE SP) certification validates expert level skills required of a Network Engineer to configure, build, troubleshoot, and optimize a complex highly available Service Provider IP NGN core infrastructure. Candidates preparing for CCIE SP certification possess thorough knowledge in IP core, aggregation/edge, and remote access technologies, Layer 2 and 3 VPNs, plus managed services traversing an IP core network. This 5 days course prepares them for just that and very much focussed on the lab exams.
 
 
COURSE OBJECTIVE
 
Candidates will learn to configure, implement, troubleshoot, and optimize SP features and technologies including
  • Carrier Ethernet
  • Packet over SONET
  • LDP
  • AToM
  • MPLS TE
  • Enhanced Multicast VPN and;
  • High availability (FRR) using IOS and IOS-XR operating environments
 
 
 
PRE-REQUISITES
 
Delegates are required to meet the following prerequisites:
  • There are no formal pre-requisites for this CCIE SP training however the students are to be expected to have strong background job experience in networking field. Routing skill set at CCNP level or equivalent is highly required before attending the training.
  • Students are expected to pass the CCIE-SP written exam already or at least have depth understanding of the topics in the written exam blueprints.
  • Specific knowledge of BGP and MPLS are recommended.
 
 
TARGET AUDIENCE
 
Candidates who meet the pre-requisites and are preparing for the lab exams for CCIE SP 
 
 
COURSE OUTLINE
 
Day 1 
Implement, Optimize and Troubleshoot Core IP Technologies 
1 Implement, Optimize and Troubleshoot IGP routing 
1.1 IS-IS 
1.1.1 IS-IS Area and Level 1/2 
1.1.2 IS-IS adjacencies  
1.1.3 IS-IS Network Type (Point to Point, Broadcast) 
1.1.4 IS-IS Metric Type 
1.1.5 IS-IS Path selection 
1.1.6 IS-IS Route Leaking 
1.1.7 IS-IS LSP Interval and Lifetime 
1.1.8 IS-IS Single and Multi topology 
1.2 OSPF 
1.2.1 OSPFv2 router ID and neighbour 
1.2.2 OSPFv2 Multi Areas 
1.2.3 OSPFv2 Network Types 
1.2.4 OSPFv2 Interface cost and path selection 
1.2.5 OSPFv2 Fast convergence Bidirectional Forwarding Detection 
1.2.6 OSPFv3 Routing for IPv6 
1.2.7 OSPFv3 Path Selection 
1.2.8 OSPF Authentication 
1.3 EIGRP 
1.3.1 EIGRP routing and configuration 
1.3.2 EIGRP metrics and path selection 
1.3.3 EIGRP IPv6 routing 
1.4 RIP 
1.4.1 RIP version 2 
1.4.2 RIP support for IPv6 
1.5 Route redistribution 
1.5.1 Redistribution OSPF to BGP 
1.5.2 Redistribution EIGRP to BGP 
1.5.3 Redistribution RIP to EIGRP 
 
 
Day 2 
Implement, Optimize and Troubleshoot Core IP Technologies 
1. Implement, Optimize and Troubleshoot BGP 
2.1 IBGP IPv4/IPv6 unicast Peering 
2.2 EBGP IPv4/IPv6 unicast Peering 
2.3 EBGP IPv4/IPv6 multi hop peering 
2.4 BGP IPv4/IPv6 routes advertising 
2.5 EBGP IPv4/IPv6 peering using AS-override 
2.6 EBGP IPv4/IPv6 peering using allow-as in 
2.7 BGP Next-Hop processing 
2.8 Path selection BGP Local Preference 
2.9 BGP Router reflector 
2. Implement, Optimize and Troubleshoot MPLS and LDP 
3.1 MPLS Overview / LDP Overview 
3.2 Basic MPLS Configuration 
3.3 Basic LDP (router ID, interface) 
3.4 LDP IS-IS and OSPF auto-config 
3.5 LDP neighbour and auto discovery 
3.6 MPLS LDP Inbound/outbound label binding filtering 
3.7 MPLS LDP authentication 
3.8 LDP TTL Propagation 
3.9 MPLS LDP-IGP synchronization 
3. Implement, Optimize and Troubleshoot Multicast 
4.1 IPv4/IPv6 Multicast routing 
4.2 PIM Sparse Mode for IPv4/IPv6 
4.3 Multicast Rate-limiting 
4.4 PIM Static RP 
4.5 PIM Bootstrap Router (BSR) 
4.6 PIM Auto RP 
4.7 Multicast Administrative Boundaries 
4.8 MSDP 
 
Day 3
Implement, Optimize and Troubleshoot Access/Edge Connection Technologies 
4. Implement, Optimize and Troubleshoot PPP connections 
5.1 PPP encapsulation 
5.2 PPP Multilink 
5.3 PPP authentication 
5. Frame-relay and HDLC 
Implement, Optimize and Troubleshoot L3VPN Technologies 
6. Intra-AS L3VPN 
7.1 MP-IBGP VPNv4/VPNv6 peering 
7.2 MP-IBGP peering using loopback interface 
7.3 MPLS VPNv4/VPNv6 Route Reflection 
7.4 VRF definition 
7.5 Route Distinguisher 
7.6 Route Target 
7.7 MPLS L3 VPN policy routing with route target import/export 
7.8 SOO Community for loop prevention 
7.9 MPLS L3 VPN PE-CE routing RIP V2 
7.10 MPLS L3 VPN PE-CE routing OSPF 
7.11 MPLS L3 VPN PE-CE routing EBGP 
7.12 Redistribution PE-CE routes VPNv4/VPNv6 
7. Inter-AS L3VPN 
8.1 Inter-AS Back-to-Back VRF exchange 
8.2 MP-EBGP VPNv4/VPNv6 peering using direct interface 
8.3 MP-EBGP VPNv4/VPNv6 peer using multi-hop interface 
8.4 MP-EBGP VPNv4/VPNv6 peer between RRs 
8.5 VPNV4/VPNv6 next-hop unchanged 
8.6 VPNV4/VPNv6 next-hop self 
8.7 Multi VRF between ASPEs 
8.8 Inter-AS MPLS VPNV4/VPNv6 multipath 
8.9 Route target rewrite 
8.10 Inter-AS MPLS VPN path selection 
8. VPN Extranet and Internet Access 
 
 
Day 4 
Implement, Optimize and Troubleshoot Core IP Technologies 
9. Implement, Optimize and Troubleshoot MPLS Traffic Engineering 
10.1 IS-IS core with MPLS TE 
10.2 OSPF core with MPLS TE 
10.3 RSVP for MPLS TE 
10.4 MPLS TE tunnel setup 
10.5 MPLS TE Tunnel bandwidth 
10.6 MPLS TE Automatic Bandwidth 
10.7 MPLS TE Static route 
10.8 MPLS TE Auto route 
10.9 MPLS TE Policy route 
10.10 MPLS TE Metric manipulation 
10.11 MPLS TE LSP attributes 
10.12 MPLS TE Fast Re-route (FRR) 
10.13 Inter-AS MPLS TE 
10.14 Inter-Area MPLS TE with OSPF and IS-IS 
Implement, Optimize and Troubleshoot L3VPN Technologies 
10. Carrier Supporting Carrier 
11.1 MPLS LDP in customer carrier site 
11.2 EBGPv4 + label between CSC-PE and CSC-CE 
11.3 IGP + LDP between CSC-PE and CSC-CE 
11.4 MPLS VPNv4 between customer carrier sites PEs 
11.5 VRF definition in customer carrier site 
11.6 Customer carrier site PE-CE routing 
11. Implement, Optimize and Troubleshoot Multicast VPN 
12.1 Default and Data MDT 
12.2 MP-BGP MDT peering 
12.3 Intra-AS and Inter-AS Multicast VPN 
12.4 Multicast VPN Configuration 
12.5 PM-Sparse Mode VPN 
12.6 Multicast VPN Verification 
 
Day 5 
Implement, Optimize and Troubleshoot L2VPN Technologies 
12. AToM 
13.1 Pseudowire class 
13.2 Ethernet to Ethernet over MPLS (EoMPLS) 
13.3 Ethernet VLAN over MPLS 
13.4 Frame Relay to Frame Relay over MPLS (FRoMPLS) 
13.5 HDLC over MPLS (HDLCoMPLS) 
13.6 PPP to PPP over MPLS (PPPoMPLS) 
13.7 AToM interworking Ethernet to Frame Relay 
14. VPLS 
14.1 L2TPV3 for L2VPN 
14.2 L2TPv3 
14.3 L2TPv3 VPN local switching 
14.4 L2TPv3 VPN interworking 
 
Full Scale Lab-1 Exercise  
  • OSPF IPv4 and IPv6 Troubleshooting 
  • ISIS IPv4 and IPv6 Troubleshooting 
  • OSPF BFD / Failure Detection 
  • OSPF Path selection with cost 
  • iBGP IPv4 and IPv6 Unicast Troubleshooting 
  • EBGP IPv4 and IPv6 Unicast 
  • BGP IPv4 Unicast Path Selection 
  • MPLS LDP Troubleshooting 
  • MPLS Traffic Engineering 
  • MPLS TE Link Protection 
  • IPv4 PIM SM Troubleshooting
  • RP and IPv4 MSDP 
  • MPLS LDP Authentication 
  • PPP 
  • IBGP VPNv4 Troubleshooting 
  • IBGP VPNv6 Troubleshooting 
  • Intra AS VPNv4 
  • Intra AS VPNv6 
  • Inter AS VPNv4 
  • Inter AS VPNv6 
  • Carrier Supporting Carrier 
  • Intra AS Multicast VPN 
  • PPP over MPLS 
  • Frame-Relay over L2TPv3 
  • VPLS

  Course Duration

         5 Days

 Price List

          280,000 Baht
          Special Offer : Contact us

  Available Schedule

17 - 21 Jun 2019