CCIE Service Provider v4 Boot Camp

Course Description:

CCIE Service Provider v4 boot camp (Online) is a 10-day workshop exploring skills required of a Network Engineer to design, configure, optimize, diagnose, and troubleshoot a complex highly available Service Provider network infrastructure. Candidates preparing for CCIE Service Provider certification possess thorough knowledge 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.

Certification/Specialization: 

CCIE SP v4.0 Lab Exam

Prerequisite Knowledge:

• CCNP + or equivalent knowledge recommended

Course Delivery Method:

This boot camp is delivered online via Webex.

Students Will Receive:

• 10 full days of instructor led online bootcamp
• access to dedicated pod using the same virtualization engine as real exam
• workbook for the class
• 2 scenarios simulating real practical exam, with troubleshooting, diagnostics and configuration sections
• access to a pod for the duration of the bootcamp plus 30 days after the bootcamp

Boot Camp Date and Hours:

9:00 AM – 5:00 PM Central Standard Time (Saturdays Only)

Day 1

Class Introduction

• Instructor introduction
• Class organization, schedule, rules
• Basic Student Assessment, background and expectations

POD and LAB Topology

• Topologies, address allocation

Service Provider Certification

• CCxx Service provider program information and review

IP Address fundamentals IPv4/v6

Routing policies in IOS, IOS-XE and IOS-XR

• Describe, implement, and troubleshoot operation of route-maps and other mechanisms used and useful in IOS and IOS-XE
• Describe, implement, and troubleshoot operation of RPL and other mechanisms used and useful in IOS-XR

System tasks: HA, monitoring, diagnostics & Labs

• Describe, implement, and troubleshoot syslog and logging functions
• Describe, implement, and troubleshoot SNMP traps, RMON, EEM, and EPC
• Describe, implement, and troubleshoot NetFlow and IPFIX
• Describe, implement, and troubleshoot IP SLA
• Describe configuration change, implementation, and rollback

Labs

Day 2

Link state protocols: OSPF and IS-IS

• Describe, implement, and troubleshoot OSPFv2 and OSPFv3
• Describe, implement, and troubleshoot IS‐IS
• Describe and optimize IGP scale and performance
• Describe and implement IGP fast convergence, detection, propagation, switchover, IP LFA
• Describe and implement route redistribution, route filtering, aggregation, loop

Labs

Day 3

BGP basics

• Describe, implement, and troubleshoot IBGP, EBGP, and MP‐BGP
• Describe, implement, and troubleshoot BGP route policy enforcement
• Describe, implement, and troubleshoot BGP prefix suppression
• Describe, implement, and troubleshoot BGP prefix based filtering
• Describe BGP path attribute
• Describe and optimize BGP scale and performance
• RPL with BGP

Labs

Day 4

BGP advanced

• Describe, implement, and troubleshoot advanced BGP features
• Describe, implement, and troubleshoot BGP RPKI
• Describe, implement, and troubleshoot routing protocol security: BGP GTSH & protocol authentication

MPLS basics:

• Describe MPLS forwarding and control plane mechanisms
• Describe, implement, and troubleshoot LDP
• Describe and optimize LDP scale and performance
• Describe, implement, and troubleshoot LDP security: authentication and label allocation filtering

Labs

Day 5

MPLS L3 services

• Describe MP-BGP, BGP AFI VPNv4, VPNv6
• Describe, implement, and troubleshoot L3VPN
• Describe, implement, and troubleshoot Inter‐AS L3VPN
• Describe, implement, and troubleshoot shared services, Extranet and Internet access
• Describe unified MPLS and CSC
• Describe, implement, and troubleshoot static routing, OSPF, EIGRP and BGP as PE-CE connectivity
• Describe and implement route redistribution, route filtering, aggregation, loop prevention

Labs

Day 6

MPLS L2 services

• Describe, implement, and troubleshoot 802.1Q, QinQ, 802.1ad, EVC
• Describe, implement, and troubleshoot E‐LINE, for example: VPWS, L2TPv3
• Describe, implement, and troubleshoot E‐LAN and E‐TREE, for example: VPLS and H‐VPLS
• Describe, implement, and troubleshoot EVPN

Labs

Day 7

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, implement, and troubleshoot MPLS advanced features: MPLS‐TE Inter‐AS

Segment Routing

Labs

Day 8

IPv6 and SP – coexistence and migrations

• Describe, implement, and troubleshoot IPv6 transition mechanism, for example: NAT44, NAT64, 6RD, MAP, and DS Lite

Fast Convergence

• Describe, implement, and troubleshoot SS0/NSF, NSR, and GR
• Layer 2/3 failure detection techniques
• Describe, implement, and troubleshoot Layer 2 failure detection
• Describe, implement, and troubleshoot Layer 3 failure detection
• Describe, implement, and troubleshoot BGP PIC

Labs

Day 9

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 mVPN, draft Rosen, mLDP, BGP AD, BGP mVPN

Labs

Day 10

System and network security

• Describe, implement, and troubleshoot control plane protection: LPTS and CoPP
• Describe, implement, and troubleshoot device management, for example: MPP, SSH, VTY
• Describe, implement, and troubleshoot logging and SNMP security
• Describe, implement, and troubleshoot uRPF, iACL
• Describe, implement, and troubleshoot RTBH and BGP FlowSpec
• Describe, implement, and troubleshoot MPLS OAM and Ethernet OAM

 Quality of Service

• Describe, implement, and troubleshoot classification and marking
• Describe, implement, and troubleshoot congestion management and scheduling
• Describe, implement, and troubleshoot congestion avoidance
• Describe, implement, and troubleshoot MPLS QoS models (Pipe, Short Pipe, and Uniform)
• Describe, implement, and troubleshoot MPLS TE QoS (MAM, RDM, CBTS, PBTS, and DS‐TE)

 Labs

Payment Policy / Options:

1. Prepayment is required for all courses and packages. All prices are based on USD currency.
2. Pricing, registration terms, and conditions are subject to change without notice.
3. Payment can be made using following methods:
4. PayPal
5. Credit Card: American Express, MasterCard, Visa.
6. CISCO Learning Credits (to submit CLC request please contact sales@micronicstraining.com).
7. Bank Wire.

Retake Policy:
There are no free retakes for this track.

Refund/Cancellation Policy:
There are no refunds. You will be issued a credit. There is no expiration for the credit. You can take the class at a different date or location at no additional cost. We need a minimum of two weeks notice for postponing the class.