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CCIE Routing & Switching Written Exam Bootcamp

Now Available Online Live!

Our entirely hands-on bootcamps are unmatched – offering 5 full days of in-depth, comprehensive CCIE lab exam training, taught by expert instructors with real-world experience. This Written Exam Bootcamp is intended to serve as a jump start your journey as you begin studying for your CCIE Routing & Switching Written Exam.

Make your CCIE goal a reality! Join the thousands of students who passed their CCIE written exam after participating in an INE Bootcamp.

What is a Written Exam Bootcamp?

Our CCIE Routing & Switching Written Exam Bootcamp is five days of intensive, hands-on, instructor-led training. The instructor will alternate between presenting material and guiding attendees through hands-on, real-world exercises. Attendees will be provided access to a complete rack system encompassing the necessary topology.

The goal of our Written Exam Bootcamp is to equip students with a foundation-level knowledge of Cisco Routing & Switching technologies. The primary focus of the class is core concepts and topics found on the CCIE written exam.

Who should take it?

Our Written Exam Bootcamp is for anyone who is beginning their CCIE journey, but already has at least a CCNP-level knowledge of networking. Though a CCNP is not required, we strongly recommend at least 3-5 years of field experience prior to attempting a CCIE.

To prepare for this course, we recommend that you review our CCNP self-paced materials, which is available individually or in our All Access Pass. For further preparation, we recommend viewing the CCIE Routing & Switching Advanced Technologies Class.

What can you expect?

This Bootcamp is structured to run 10 hours per day, with a one-hour lunch break. Each day will be a combination of lectures, instructor-led demonstrations, Q&A sessions, hands-on exercises, and frequent quizzes. Students will also have full access to their lab equipment throughout the evening to continue practicing on their own or as groups.

Each student will be equipped with his or her own virtual rack equipment. Each day, instructor lectures will be followed by applicable technology-focused labs. Upon completion of this class, the student will have a solid foundation of knowledge and a keen understanding of what topics to focus on for the remainder of their studies.

Our lectures are dynamic and engaging, with a digital whiteboard system, and a significant amount of class time spent live on Cisco's IOS command line interface working with a full network topology. Each student will be equipped with his or her own complete rack of equipment.

Contact a Training Advisor today to begin your journey to CCIE success!


  • Regular price $2,999.00
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Upcoming Scheduled Dates Location
April 23 – April 27, 2018 San Jose, CA
April 23 – April 27, 2018 Online Live
June 18 – June 22, 2018 RTP, NC
June 18 – June 22, 2018 Online Live
July 9 - July 13, 2018 Amsterdam, NL
July 9 - July 13, 2018 Online Live
September 17 - September 21, 2018 San Jose, CA
September 17 - September 21, 2018 Online Live
November 13 - November 17, 2018 RTP, NC
November 13 - November 17, 2018 Online Live

5 Days
Reserve your seat today for as low as $1200!

Contact a Training Specialist today to discuss setting up a payment plan for your bootcamp.


1-775-826-4344 (Outside US)

As of November 1st 2017 - INE offers Bootcamp course reseats at a fee of $500; provided that the original Bootcamp was purchased at list price. If the Bootcamp was purchased at a discounted price, you will have to first pay the difference of the bootcamp as well as the reseat fee. Any promotional items (i.e. travel vouchers,electronic devices, etc) received will require you pay the cost of that item, up to $500,in addition to the reseat fee. This $500 reseat fee applies to purchases made within two years from the date of the original Bootcamp attended. Reseats after this two-year timeframe are available for purchase at discounted rate from the list price. Students may schedule a reseat during any upcoming Bootcamp dates, excluding those marked “Sold Out.”  Reseat terms apply.

  • Day 1:
    • VLans
    • Trunking
    • Router-on-Stick
    • VACL’s
    • Layer 2 Access Switchports
    • Layer 2 Dynamic Switchports
    • 802.1q Dynamic Trunking
    • 802.1q Native VLAN
    • DTP Negotiation
    • VTP Domain
    • VTP Transparent
    • VTP Pruning
    • VTP Prune-Eligible List
    • VTP Version 3
    • STP Root Bridge Election
    • STP Path Selection with Port Cost
    • STP Path Selection with Port Priority
    • Tuning STP Convergence Timers
    • STP PortFast
    • STP PortFast Default
    • STP UplinkFast
    • STP BackboneFast
    • STP BPDU Guard
    • STP BPDU Guard Default
    • STP BPDU Filter
    • STP BPDU Filter Default
    • STP Root Guard
    • STP Loop Guard
    • Unidirectional Link Detection
    • MST Root Bridge Election
    • MST Path Selection with Port Cost
    • MST Path Selection with Port Priority
    • MST and Rapid Spanning Tree
    • Layer 2 EtherChannel
    • Layer 2 EtherChannel with PAgP
    • Layer 2 EtherChannel with LACP
    • Layer 3 EtherChannel
    • Protected Ports
    • Storm Control
    • MAC-Address Table Static Entries and Aging
    • SPAN
    • RSPAN
    • Voice VLAN
    • Smartport Macros
    • Private VLANs
    • RIPv2 Basic Configuration
    • RIPv2 Authentication
    • RIPv2 Split Horizon
    • RIPv2 Auto-Summary
    • RIPv2 Send and Receive Versions
    • RIPv2 Manual Summarization
    • RIPv2 Convergence Timers
    • RIPv2 Offset List
    • RIPv2 Filtering with Passive Interface
    • RIPv2 Filtering with Prefix-Lists
    • RIPv2 Filtering with Standard Access-Lists
    • RIPv2 Filtering with Extended Access-Lists
    • RIPv2 Filtering with Offset Lists
    • RIPv2 Filtering with Administrative Distance
    • RIPv2 Filtering with Per-Neighbor AD
    • RIPv2 Default Routing
    • RIPv2 Conditional Default Routing
    • RIPv2 Reliable Conditional Default Routing
    • RIPv2 Unicast Updates
    • RIPv2 Broadcast Updates
    • RIPv2 Source Validation
  • Day 2:
    • EIGRP Network Statement
    • EIGRP Auto-Summary
    • EIGRP Multi-AF Mode
    • EIGRP MD5 & SHA-256 Authentication
    • EIGRP Key Chain Rotation
    • EIGRP Unicast Updates
    • EIGRP Summarization
    • EIGRP Summarization with Default Routing
    • EIGRP Summarization with Leak Map
    • EIGRP Floating Summarization
    • EIGRP Poisoned Floating Summarization
    • EIGRP Metric Weights
    • EIGRP Unequal Cost Load Balancing
    • EIGRP Traffic Engineering with Metric
    • EIGRP Convergence Timers
    • EIGRP Stub Routing
    • EIGRP Stub Routing with Leak Map
    • EIGRP Filtering with Passive Interface
    • EIGRP Filtering with Prefix-Lists
    • EIGRP Filtering with Standard Access-Lists
    • EIGRP Filtering with Extended Access-Lists
    • EIGRP Filtering with Offset Lists
    • EIGRP Filtering with Administrative Distance
    • EIGRP Filtering with Per Neighbor AD
    • EIGRP Filtering with Route Maps
    • EIGRP Bandwidth Pacing
    • EIGRP Default Metric
    • EIGRP Neighbor Logging
    • EIGRP Router-ID
    • EIGRP Maximum Hops
    • OSPF over Broadcast Media
    • OSPF over DMVPN
    • OSPF DR/BDR Election Manipulation
    • OSPF Network Point-to-Point
    • OSPF Network Point-to-Multipoint
    • OSPF Network Point-to-Multipoint Non-Broadcast
    • OSPF Network Loopback
    • OSPF Path Selection with Auto-Cost
    • OSPF Path Selection with Cost
    • OSPF Path Selection with Bandwidth
    • OSPF Path Selection with Per-Neighbor Cost
    • Discontiguous OSPF Areas with Virtual-Links
    • OSPF Path Selection with Non-Backbone Transit Areas
    • OSPF Path Selection with Virtual-Links
    • OSPF Demand Circuit
    • OSPF Flooding Reduction
    • OSPF Clear Text Authentication
    • OSPF MD5 Authentication
    • OSPF MD5 Authentication with Multiple Keys
    • OSPF SHA Authentication
    • OSPF Null Authentication
    • OSPF Internal Summarization
    • OSPF Path Selection with Summarization
    • OSPF External Summarization
    • OSPF Stub Areas
    • OSPF Totally Stubby Areas
    • OSPF Not-So-Stubby Areas
    • OSPF Not-So-Stubby Areas and Default Routing
    • OSPF Not-So-Totally-Stubby Areas
    • OSPF Stub Areas with Multiple Exit Points
    • OSPF NSSA Type-7 to Type-5 Translator Election
    • OSPF NSSA Redistribution Filtering
    • OSPF LSA Type-3 Filtering
    • OSPF Forwarding Address Suppression
    • OSPF Default Routing
    • OSPF Conditional Default Routing
    • OSPF Reliable Conditional Default Routing
    • OSPF Filtering with Distribute-Lists
    • OSPF Summarization and Discard Routes
    • OSPF Filtering with Administrative Distance
    • OSPF Filtering with Route-Maps
    • OSPF NSSA ABR External Prefix Filtering
    • OSPF Database Filtering
    • OSPF Stub Router Advertisement
    • OSPF Interface Timers
    • OSPF Global Timers
    • OSPF Resource Limiting
    • Miscellaneous OSPF Features
    • Redistribution Case 1
    • Redistribution Case 2
    • Redistribution Case 3
  • Day 3 and 4:
    • DMVPN Phase 1 with OSPF
    • DMVPN Phase 1 with EIGRP
    • DMVPN Phase 2 with EIGRP
    • DMVPN Phase 2 with OSPF
    • DMVPN Phase 3 with EIGRP
    • IPsec VPNs with Crypto Maps
    • GRE over IPsec with Crypto Maps
    • GRE over IPsec with Crypto Profiles
    • IPsec Virtual Tunnel Interfaces (VTIs)
    • DMVPN without IPsec
    • DMVPN with IPsec
    • VRF Aware DMVPN
    • IPv6 Link-Local Addressing
    • IPv6 Unique Local Addressing
    • IPv6 Global Aggregatable Addressing
    • IPv6 EUI-64 Addressing
    • IPv6 Auto-Configuration
    • RIPng
    • RIPng over NBMA
    • RIPng Summarization
    • RIPng Prefix Filtering
    • RIPng Metric Manipulation
    • RIPng Default Routing
    • EIGRPv6
    • EIGRPv6 Summarization
    • EIGRPv6 Prefix Filtering
    • EIGRPv6 Metric Manipulation
    • EIGRPv6 Default Routing
    • OSPFv3
    • OSPFv3 over NBMA
    • OSPFv3 Virtual Links
    • OSPFv3 Summarization
    • IPv6 Redistribution
    • IPv6 Filtering
    • IPv6 MP-BGP
    • IPv6 PIM and MLD
    • IPv6 PIM BSR
    • IPv6 Embedded RP
    • IPv6 SSM
    • IPv6 Tunneling
    • Automatic 6to4 Tunneling
    • ISATAP Tunneling
    • Establishing iBGP Peerings
    • Establishing eBGP Peerings
    • BGP Update Source Modification
    • Multihop EBGP Peerings
    • Neighbor Disable-Connected-Check
    • Authenticating BGP Peerings
    • iBGP Route Reflection
    • Large-Scale iBGP Route Reflection with Clusters
    • BGP Peer Groups
    • BGP Network Statement
    • BGP Auto-Summary
    • BGP Bestpath Selection - Weight
    • BGP Bestpath Selection - Local Preference
    • BGP Bestpath Selection - AS-Path Prepending
    • BGP Bestpath Selection - Origin Code
    • BGP Bestpath Selection - MED
    • BGP Bestpath Selection - Always Compare MED
    • iBGP Confederation
    • BGP Next-Hop Processing - Next-Hop-Self
    • BGP Next-Hop Processing - Manual Modification
    • iBGP Synchronization
    • BGP over GRE
    • BGP Redistribute Internal
    • BGP Bestpath Selection - AS-Path Ignore
    • BGP Bestpath Selection - Router-IDs
    • BGP Bestpath Selection - DMZ Link Bandwidth
    • BGP Bestpath Selection - Maximum AS Limit
    • BGP Backdoor
    • BGP Aggregation
    • BGP Communities
    • BGP Communities - No-Advertise
    • BGP Communities - No-Export
    • BGP Communities - Local-AS
    • BGP Communities - Deleting
    • BGP Conditional Advertisement
    • BGP Regular Expressions
    • BGP Filtering with Maximum Prefix
    • BGP Default Routing
    • BGP Local AS
    • BGP Dampening
    • BGP Fast Fallover
    • BGP Outbound Route Filtering
    • BGP Soft Reconfiguration
    • BGP Next-Hop Trigger
    • BGP TTL Security
    • BGP AllowAS in
  • Day 5:
    • MPLS LDP
    • MPLS Label Filtering
    • VRF Lite
    • MP-BGP VPNv4
    • MP-BGP Prefix Filtering
    • PE-CE Routing with RIP
    • PE-CE Routing with OSPF
    • OSPF Sham-Link
    • PE-CE Routing with EIGRP
    • EIGRP Site-of-Origin
    • PE-CE Routing with BGP
    • BGP SoO Attribute
    • Internet Access
    • MPLS VPN Performance Tuning
    • PIM Dense Mode
    • Multicast RPF Failure
    • PIM Sparse Mode
    • PIM Sparse-Dense Mode
    • PIM Assert
    • PIM Accept RP
    • PIM DR Election
    • PIM Accept Register
    • Multicast Tunneling
    • Auto-RP
    • Auto-RP - Multiple Candidate RPs
    • Auto-RP - Filtering Candidate RPs
    • Auto-RP Listener
    • Auto-RP and RP/MA Placement
    • Filtering Auto-RP Messages
    • Multicast Boundary
    • PIM Bootstrap Router
    • BSR - Multiple RP Candidates
    • Filtering BSR Messages
    • Stub Multicast Routing & IGMP Helper
    • IGMP Filtering
    • IGMP Timers
    • Multicast Helper Map
    • Bidirectional PIM
    • Source Specific Multicast
    • Multicast BGP Extension
    • MSDP
    • Anycast RP
    • Catalyst IGMP Snooping
    • Catalyst Multicast VLAN Registration
    • Catalyst IGMP Profiles
    • HSRP
    • VRRP
    • Router Redundancy and Object Tracking
    • Router ICMP Settings
    • Basic NAT
    • NAT Overload
    • NAT with Route Maps
    • Static NAT
    • Static PAT
    • Static NAT and IP Aliasing
    • Static Policy NAT
    • TCP Load Distribution with NAT
    • NAT Default Interface
    • Reversible NAT
    • Static Extendable NAT
    • Evolving Technologies
    • Cloud
    • Network Programmability (SDN)
    • Internet of Things (IoT)

Our Bootcamp students share their stories...

Rohit was an amazing instructor who has more knowledge than anyone I've ever interacted with.  
Craig Burnham - CCNP
I enjoyed Rohit personally. I would look for him if seeking another workshop. The content/material informed and challenged me. I feel better prepared. 
John Wattenbarger - CCNP R&S and passed CCIE written October 2017