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CCIE Bootcamp in India: CCIE R&S Bootcamp

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COURSE OVERVIEW

CCIE Routing and Switching Technology Bootcamp is a rigorous hands-on Training Program. This intense training course in a blended mixture of Hands-on Labs and Theory.

CCIE R & S technology boot camp will help you master all the expert level concepts as per the official Cisco CCIE R&S blueprints. After this boot camp candidates can readily pass the CCIE Written Examination.

CCIE Bootcamp by I-Medita is a 10 Days intensive training program and focuses on the expert level topics including Understanding and Troubleshooting Layer 2, Understanding and Troubleshooting Layer 3, IGP Routing , Routing Information Protocol- EIGRP, OSPF, BGP, IPv6, VPN, IP Multicast, QoS, Security, IP Services and Emerging technologies.

Training Type Classroom & Online
Training Duration 10 Days
Hours per Day 6
Training Certification Yes
Skill Level Expert
Training Cost USD 1500
Study Material Yes
Batches Available Regular (Mon-Fri) & Weekend (Sat-Sun)

PREREQUISITES

  • CCNP R&S level Knowledge or equivalent experience.
  • You should have three to five years of job experience before attempting CCIE R&S certification.

WHO SHOULD ATTEND?

  • Candidates planning for CCIE Routing & Switching Written and Lab Examination.
  • Candidates who have CCNP level knowledge and wants to gain expert level skills.

WHAT WILL YOU LEARN IN 10 DAYS CCIE BOOTCAMP?

DAY 1, 2 : Understanding and Troubleshooting Layer 2

  • Understanding all the topics and building the mind map of training.
  • Understanding Cisco CCIE Certification FAQs
  • Implement and troubleshoot switch administration
  • CDP, LLDP, UDLD
  • VLANs & Trunking
  • VTP and Pruning
  • EtherChannel
  • STP, PVST+, RPVST+, MST
  • STP Root Bridge Election
  • STP Load Balancing with Port Cost
  • STP Load Balancing with Port Priority
  • Tuning STP Convergence Timers
  • STP BPDU Guard, Root Guard, Loop Guard
  • Unidirectional Link Detection
  • MST Root Bridge Election
  • MST Load Balancing with Port Cost
  • MST Load Balancing with Port Priority
  • MST and Rapid Spanning Tree
  • Protected Ports
  • Advanced Spanning Tree Features
  • ErrDisable recovery
  • Storm-Control
  • SPAN and RSPAN
  • IGMP and troubleshooting
  • IGMPv1, IGMPv2, IGMPv3
  • IGMP snooping, querier, Filter, Proxy
  • HDLC, PPP, PPPoE, MLPPP
  • PPP Authentication and Advanced PPP Features
  • PPP Troubleshooting
  • Layer 2 Troubleshooting

DAY 2: Understanding and Troubleshooting Layer 3

  • Implement and troubleshoot static routing
  • Implement and troubleshoot default routing
  • Reliable Static Routing with Enhanced Object Tracking
  • Policy-based Routing , Reliable Policy Routing
  • Identify and troubleshoot sub-optimal routing
  • Implement and troubleshoot bidirectional forwarding detection
  • Implement and troubleshoot VRF lite
  • GRE Tunneling and Recursive Routing
  • Reliable Backup Interface with GRE
  • On-Demand Routing (ODR)
  • IPv4 and IPv6 Addressing and Subnetting

DAY 3: IGP Routing

  • Routing Information Protocol
  • Basic RIP Configuration
  • RIP Authentication
  • RIP Split Horizon
  • RIP Auto-Summary
  • RIP Send and Receive Versions
  • RIP Manual Summarization
  • RIP Convergence Timers
  • RIP Offset List
  • RIP Filtering with Passive Interface
  • RIP Filtering with Prefix-Lists
  • RIP Filtering with Standard Access-Lists
  • RIP Filtering with Extended Access-Lists
  • RIP Filtering with Offset Lists
  • RIP Filtering with Administrative Distance
  • RIP Filtering with Per Neighbor AD
  • RIP Default Routing, Conditional Default Routing, Reliable Conditional Default Routing
  • RIP Unicast Updates, Broadcast Updates, Triggered Updates
  • EIGRP
  • Implement and troubleshooting basic EIGRP operations
  • EIGRP Auto-Summary
  • EIGRP Split Horizon
  • EIGRP MD Authentication and Key Chain Rotation
  • EIGRP Unicast Updates
  • EIGRP Default Network
  • EIGRP Summarization, (With Default Routing and Leak Map)
  • EIGRP Metric Weights
  • EIGRP Traffic Engineering with Metric
  • EIGRP Unequal Cost Load Balancing
  • EIGRP Convergence Timers : IP FRR/fast reroute [single hop]
  • EIGRP Stub Routing
  • EIGRP Stub Routing with Leak Map
  • EIGRP Filtering with Passive Interface, ACL, Prefix-Lists, Offset Lists, AD, per neighbor AD, Route Map
  • EIGRP Bandwidth Pacing
  • EIGRP Default Metric
  • EIGRP Neighbor Logging
  • EIGRP Router-ID
  • EIGRP Maximum Hops
  • EIGRP Summary metric

DAY 4, 5 : OSPF

  • OSPF LSA and Route Types
  • OSPF Address Family : IPv4 and IPv6
  • OSPF DR/BDR Election Manipulation
  • OSPF Network types
  • OSPF Path Selection with Cost , Bandwidth, Per-Neighbor Cost
  • Repairing Discontiguous OSPF Areas with Virtual-Links
  • Implement and troubleshoot path preference
  • Implement and troubleshoot operations : Graceful Shutdown, GTSM [Generic TTL security mechanism]
  • OSPF Flooding Reduction
  • OSPF Authentication: Null, Clear Text, MD (with Multiple Keys)
  • OSPF Internal and External Summarization
  • OSPF Stub, Totally Stubby, and Not-So-Stubby Areas
  • OSPF Stub Areas with Multiple Exit Points
  • OSPF NSSA Type- to Type- Translator Election
  • OSPF NSSA Redistribution Filtering
  • OSPF Route Filtering : Distribute-Lists, Administrative Distance, Route-Maps
  • OSPF Database Filtering
  • OSPF NSSA ABR External Prefix Filtering
  • OSPF Summarization and Discard Routes
  • OSPF Reliable Conditional Default Routing
  • OSPF Stub Router Advertisement
  • OSPF Interface and Global Timers
  • OSPF Resource Limiting
  • OSPF convergence and scalability : Metrics, LSA throttling, SPF tuning, fast hello, LSA propagation control, IP FR/fast reroute [single hop], LFA/loop-free alternative [multi hop], OSPFv3 prefix suppression

DAY 5: BGP

  • Establishing iBGP and eBGP Peerings
  • BGP Update Source Modification
  • Multihop EBGP Peerings
  • Authenticating BGP Peerings
  • BGP Next-Hop Processing – Next-Hop-Self, Manual Modification
  • iBGP Synchronization
  • BGP Peer Groups
  • BGP Network Statement
  • BGP Auto-Summary
  • BGP over GRE
  • BGP Redistribute Internal
  • BGP Bestpath Selection – Weight, Local Preference, AS-Path Prepending, Origin, MED, Always Compare MED, AS-Path Ignore, Router-IDs, DMZ Link Bandwidth, Maximum AS Limit
  • Neighbor Disable-Connected-Check
  • iBGP Route Reflector and Confederation, Clusters
  • BGP Backdoor
  • BGP Aggregation – Summary Only, Suppress Map, Unsuppress Map, AS-Set, Attribute-Map
  • BGP Communities – No-Advertise, No-Export, Local-AS, Deleting
  • BGP Conditional Advertisement
  • BGP Filtering: Prefix-Lists, Standard Access-Lists , Extended Access-Lists, Maximum Prefix, Outbound Route Filtering
  • BGP Default Routing
  • BGP AS path manipulations: Local AS Replace-AS/Dual-AS, AllowAS in, Remove Private AS, Prepend, Regexp
  • BGP Dampening, Dampening with Route-Map
  • BGP Fast Fall-over, Regular Expressions
  • BGP Multipath, BGP Synchronization, Soft reconfiguration, route refresh.

DAY: 6, 7, 8 : IPv6 , VPN , IP Multicast & QOS

  • IPv6
  • Addressing and Tunneling
  • Routing: RIPng, OSPFv3, EIGRPv6, and BGP
  • Advanced OSPFv3 Features: Area Types, Summarization, etc.
  • OSPFv3 Troubleshooting
  • IPv6 Filtering
  • IPv6 NAT-PT
  • IPv6 MP-BGP
  • IPv6 Tunneling
  • Automatic to Tunnels
  • ISATAP Tunnels
  • IPv6 Troubleshooting
  • VPN
  • MPLS: Label Stack, LSR, LSP, LDP, MPLS Ping, MPLS Traceroute
  • MPLS Label Filtering
  • MP-BGP VPNv4
  • Route Target Filtering
  • Basic MPLS L3VPN, PE-CE Routing: OSPF, EIGRP, RIP, BGP
  • MPLS and MPLS VPN Troubleshooting
  • Implement and troubleshoot DMVPN [single hub]
  • NHRP
  • DMVPN with IPsec using pre-shared key
  • QoS profile
  • Pre-classify
  • IPSec VPN
  • Site-to-site IPsec Tunnels
  • Virtual Tunnel Interfaces (VTI)
  • VPN Troubleshooting
  • IP Multicast
  • PIM Sparse and Dense Mode
  • Auto-RP and BSR
  • RP Filtering Techniques
  • PIM and IGMP Access Control
  • RPF Failures
  • Tunneling Multicast Traffic
  • PIM over NBMA Networks
  • PIM Accept Register
  • Interdomain Multicast (MSDP)
  • IGMP Filtering
  • IGMP Timers
  • Multicast Rate Limiting
  • Source Specific Multicast
  • Catalyst IGMP Snooping
  • Basic and Advanced Multicast Troubleshooting
  • Implement and troubleshoot IPv4 protocol independent multicast
  • QoS
  • Weighted Fair Queuing (WFQ)
  • QoS DiffServ and InterServ
  • CoS and DSCP mapping
  • MQC Classification and Marking
  • Network-Based Application Recognition (NBAR)
  • Policing and Shaping
  • Queueing Techniques: Legacy and CBWFQ/HQF
  • Congestion Management Techniques (Queuing)
  • Congestion Avoidance Techniques (WRED)
  • Catalyst SRR Shaped Mode
  • Catalyst QoS DSCP Mutation
  • Resource Reservation Protocol (RSVP)

DAY 9, 10: Security, IP Services & Emerging Technologies

  • Access-Lists in Routers and Switches: VACL, PACL
  • AAA Authentication Lists
  • AAA Exec Authorization
  • AAA Local Command Authorization
  • Filtering Fragmented Packets
  • Packet Logging with Access-Lists
  • Traffic Filtering with Policy-Based Routing
  • Using NBAR for Content-Based Filtering
  • Port Security
  • Private VLANs
  • DHCP Snooping
  • IP Source Guard
  • Dynamic ARP Inspection
  • IPv6 First Hop Security
  • RA Guard
  • DHCP guard
  • Binding table
  • Device tracking
  • ND inspection/snooping
  • Source guard
  • PACL
  • URPF
  • TCP Intercept
  • Managing Router Access: Privilege Levels, RBAC
  • Dynamic ARP Inspection
  • Controlling the ICMP Messages Rate
  • Control Plane Policing and Protection
  • Zone Based Firewall
  • IP Services
  • Proxy ARP
  • First Hop Redundancy Services: HSRP, GLBP, VRRP
  • Redundancy using IPv6 RS/RA
  • IOS Features: Menus, HTTP server, DHCP, etc.
  • Implement and troubleshoot IPv4 and IPv6 DHCP
  • Implement and troubleshoot network time protocol
  • Management Features: SNMP and RMON
  • NAT, NAT Overload, NAT with Route Map
  • SLA and Object Tracking
  • Implement and troubleshoot netflow
  • Netflow v5, v9
  • Local retrieval
  • Export [configuration only]
  • Embedded Event Manager (EEM)
  • IP Precedence Accounting
  • IP Output Packets Accounting
  • IP Access Violation Accounting
  • MAC Address Accounting
  • Emerging Topics
  • Misc. Topics
  • Q & A Session

CERTIFICATION/EXAM DETAILS

Cisco CCIE Routing and Switching is an expert level certification which validates candidates skills and knowledge to plan, operate and troubleshoot complex, converged network infrastructures.

There are two Exams in CCIE Routing and Switching

  • CCIE R&S Written Examination – is a two-hour, written qualification exam, which includes networking concepts and equipment commands before you are eligible to schedule the lab exam.
  • CCIE R&S Lab Examination– is an 8 hours practical exam which tests expert troubleshooting abilities of applicants. This is one of the hardest examinations in the Cisco Certification Track.

RECERTIFICATION

All CCIE certifications are valid for two years. To recertify, you must pass one of the following:

  • Earn the credits of the Cisco Continuing Education Program
  • Pass any current CCIE Written Exam OR CCIE Lab Exam
  • Pass the current CCDE Written Exam OR current CCDE Practical Exam
  • Pass the Cisco Certified Architect (CCAr) review exam.

Our Trainers

Saurabh Yadav

Saurabh Yadav

Triple CCIE R&S, SP, Security # 46962

Baldev Singh

Baldev Singh

CCIE Security # 37094

Sudhanshu Bhat

Sudhanshu Bhat

CCIE Voice # 41212

Surendra Singh

Surendra Singh

CCIE R&S # 60346

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