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CCIE Collaboration

CCIE Collaboration Overview

Octa Networks is renowned for being the best CCIE Collaboration training Institute in Mumbai. We have fully capable Lab facility in Mumbai to complete the CCIE Collaboration training. We offer high-end training to candidates in our 24×7 Cisco real devices. The CCIE Collaboration Training is designed in accordance with the Cisco Blueprints for the CCIE Collaboration Written and Lab Examination. You are looking at the best Cisco Training institute which will help you in building your technical knowledge and help you make your dream career in network collaboration domain.

The CCIE Collaboration certification is ideal for engineers who are responsible for designing, implementing and troubleshooting complex Cisco collaboration solutions. Achieving CCIE Collaboration certification validates your expert-level knowledge of and experience in integrating, interoperating, configuring and troubleshooting Cisco collaboration solutions in complex networks. It also confirms that you have the expertise to manage the challenges of video, mobility and presence as the foundation for workplace collaboration solutions.

The CCIE Collaboration Certification Program is an expert-level certification that ensures you gain the knowledge and experience required for the integration and interoperation of collaboration solutions, the configuration and troubleshooting of complex networks and the challenges of video, mobility and presence as the foundation for workplace collaboration solutions. The goal is to enable successful deployment of adaptable collaboration systems that increase user productivity and provide a seamless user experience.

Key Features of CCIE Collaboration Training:

  • Candidates are provided guaranteed training on Cisco Physical Devices.
  • CCIE Collaboration Concepts are explained theoretically and practically on the Cisco Physical Devices.
  • Students have 24*7 Lab Access.
  • 120+ hours of training in classroom with interactive whiteboard and projector.
  • Candidates can appear for the repeat classes unlimited times.
  • Classrooms are equipped with projectors, Wi-Fi connectivity, and Digital Pads.
  • Support and Guidance provided before and after getting Cisco Certified.
  • Batches are available from early morning to late night.
  • 24×7 availability of Trainers/Mentors.
  • Our Trainers are Cisco certified and highly experienced.

Devices to be used during the Training Program:

Physical Devices

Cisco IP Phones
  • Cisco Unified IP Phone 8845 (Remote Controlled)

Virtual Machines

Core Collaboration Applications
  • Cisco Unified Communications Manager 12.0
  • Cisco Unified IM & Presence 12.0
  • Cisco Unity Connection 12.0
  • Cisco Unified Contact Center Express 11.6
  • Cisco Meeting Server 2.x
Collaboration Edge
  • Cisco Expressway Series 8.10
  • CSR1000v: IOS XE 16.3
Others
  • Cisco Unified Communications Manager Express 12.0
  • Cisco Unity Express Virtual 9.0
Client PCs and Applications
  • Active Directory Server: Windows Server 2012 R2
  • Test PC: Windows 7 and Windows 10
    • Cisco Jabber for Windows 11.x
    • Cisco Spark Client
    • Cisco Meeting App for Windows 1.x

Training Plan

Training Schedule
Weekdays (Mon-Fri) Weekend (Sat-Sun)
Duration 2 Months 3 Months
Hours 4 Hours / Day 8 Hours / Day
Fees 1,25,000 + Taxes 1,25,000 + Taxes
Training Mode Online/Onsite Online/Onsite

Trainer's Profile

SAGAR SHERLA

SAGAR SHERLA

CCIE#51562

Sagar Sherla
CCIE # 51562

Mr.Sagar Sherla is a B.Sc.(IT) graduate also Key member of Octa Network’s Trainers Team. He is Senior Collaboration Trainer with more than 4 years of experience. He has been working with Cisco technologies since 2014. He has also made more than 200+ people clear CCIE Collaboration Lab under his guidance and training and has also delivered serveral Corporate training in large corporate companies. Apart from training has also deployed many projects as freelancer at Tata Communication Ltd., DHL, MAERSK, and many more. He has been developing course content for Cisco certification tracks of Collaboration.

Some of his Specialization:

• CUCM, CUC, CUE, IM & P, Expressway & CMS
• Dial Plans, Dial Peers, and Digit Manipulation & Class of Restrictions.
• H323, SIP, MGCP.

Lab Facility

Target Audience:

  • Network Collaboration engineers with CCNP Collaboration Certification who wants to enhance their skills and acquire in-depth knowledge of Enterprise Collaboration Technology.
  • Network Collaboration engineer with at least three years of professional experience.
  • Network Collaboration consultants that design and support complex enterprise Collaboration network and topologies.

Prerequisite:

  • Candidates should be prepared with at least CCNP Collaboration level education in order to satisfy the expected knowledge required to begin with CCIE Collaboration course.
  • Candidates are strongly encouraged to have three to five years of CCNP Collaboration or equivalent job experience before attempting certification.
  • Candidates must have passed the CCIE Collaboration written Exam to appear for the 8-hour practical lab.

Topics:

1.0 Protocols and APIs

1.1 Capture, analyze, and troubleshoot IP collaboration signaling  protocols

  • 1.1.a SIP
  • 1.1.b H.323
  • 1.1.c MGCP
  • 1.1.d SCCP

1.2 Implement and troubleshoot SDP and media negotiation

  • 1.2.a Offer/Answer model
  • 1.2.b Early offer, delayed offer, early media
  • 1.2.c Payload type interworking

1.3 Analyze and troubleshoot SIP identity headers

  • 1.3.a Name
  • 1.3.b Number
  • 1.3.c URI
  • 1.3.d Privacy

1.4 Capture, analyze, and troubleshoot media protocols

  • 1.4.a RTP/RTCP, sRTP/sRTCP
  • 1.4.b Binary Floor Control Protocol (BFCP)
  • 1.4.c ActiveControl (iX)
  • 1.4.d T.38

1.5 Design, implement, and troubleshoot DTMF relay

  • 1.5.a In-band vs out-of-band
  • 1.5.b RFC 2833
  • 1.5.c Key Pad Markup Language (KPML)
  • 1.5.d Unsolicited NOTIFY
  • 1.5.e Interworking

1.6 Capture, analyze, and troubleshoot messaging protocols

  • 1.6.a XMPP
  • 1.6.b SIP/SIMPLE

1.7 Capture, analyze, and troubleshoot legacy telephony protocols

  • 1.7.a Analog (FXS, FXO, loop-start, ground-start)
  • 1.7.b Q.931

1.8 Utilize and troubleshoot the following APIs

  • 1.8.a Cisco Meeting Server API
  • 1.8.b Unified CM Administrative XML (AXL) API
  • 1.8.c Spark API
  • 1.8.d Tropo API

1.9 Describe the functionality of the following APIs

  • 1.9.a Cisco Unity Connection Provisioning Interface (CUPI)
  • 1.9.b Java Telephony Application Programming Interface (JTAPI)
  • 1.9.c Extension Mobility API (EMAPI)
  • 1.9.d UC Gateway Services API (GSAPI)
  • 1.9.e Unified Routing Rules XML Interface (CURRI)

2.0 Infrastructure and Quality of Services

2.1 Implement and troubleshoot network services

  • 2.1.a DHCP
  • 2.1.b NTP
  • 2.1.c DNS
  • 2.1.d CDP/LLDP

2.2 Troubleshoot layer 2 and layer 3 network connectivity issues

2.3 Identify key implications of running collaboration in a wireless environment

  • 2.3.a 802.11k, 802.11v, 802.11r
  • 2.3.b QoS

2.4 Design, implement and troubleshoot Quality of Service for  Collaboration applications and endpoints on LAN/WAN/WLAN (Cisco IOS-XE and AireOS)

  • 2.4.a Identification
  • 2.4.b Classification and marking
  • 2.4.c Queuing and scheduling
  • 2.4.d Congestion management

2.5 Troubleshoot voice and video quality issues

  • 2.5.a Packet loss, jitter, and latency
  • 2.5.b Endpoint call quality metrics
  • 2.5.c One-way or no-way media

2.6 Collect and analyze packet captures on Cisco Collaboration platforms

2.7 Design, implement and troubleshoot Enhanced Locations Call Admission Control (ELCAC)

2.8 Design, implement and troubleshoot Call Admission Control on CUBE

2.9 Describe APIC-EM integration with Cisco Collaboration solutions

2.10 Design, implement and troubleshoot Collaboration applications in a virtualized environment

  • 2.10.a Virtual machine templates
  • 2.10.b Hypervisors
  • 2.10.c Resource utilization (CPU, memory, storage, network)

3.0 Call Control and Dial plan

3.1 Design and analyze global dial plans

  • 3.1.a Localization and globalization
  • 3.1.b Numbering schemes
  • 3.1.c Dialing habits
  • 3.1.d Interdigit timeouts
  • 3.1.e Calling privileges
  • 3.1.f Number presentation

3.2 Design, implement, and troubleshoot fundamental dial plan features on Unified CM

  • 3.2.a Partitions and calling search spaces
  • 3.2.b Translation and transformation patterns
  • 3.2.c Urgent priority
  • 3.2.d Path selection
  • 3.2.e AAR

3.3 Design, implement, and troubleshoot advanced dial plan features on Unified CM

  • 3.3.a Global dial plan replication
  • 3.3.b Local route groups

3.4 Design, implement, and troubleshoot URI and domain-based routing

3.5 Implement and troubleshoot Unified CM telephony features

  • 3.5.a Call Pickup
  • 3.5.b Barge/privacy
  • 3.5.c Native call queuing
  • 3.5.d Intercom
  • 3.5.e Music on hold (unicast and multicast)

3.6 Design, implement, and troubleshoot audio and video codec selection

3.7 Implement and troubleshoot SIP trunking

  • 3.7.a SIP profiles
  • 3.7.b SIP trunk security profiles
  • 3.7.c Resiliency
  • 3.7.d Mid-call signaling

3.8 Implement and troubleshoot UDS in a multi-cluster environment

  • 3.8.a Service discovery
  • 3.8.b User search
  • 3.8.c LDAP proxy

3.9 Verify and troubleshoot Unified CM database replication

3.10 Design, implement, and troubleshoot dial plans on Cisco IOS-XE

  • 3.10.a Inbound and outbound dial-peers
  • 3.10.b Voice translation rules and profiles
  • 3.10.c Dial-peer provisioning policy
  • 3.10.d Destination server groups
  • 3.10.e Destination dial-peer groups
  • 3.10.f E.164 pattern maps
  • 3.10.g URI-based dialing
  • 3.10.h VRF-aware call routing

3.11 Implement and troubleshoot SIP call control for Unified CME

  • 3.11.a Extension Assigner
  • 3.11.b Secondary CME support
  • 3.11.c Video support
  • 3.11.d Telephony features

3.12 Implement and troubleshoot SIP-SRST and E-SRST

3.13 Design, implement, and troubleshoot dial plans on Expressway Series

  • 3.13.a Transforms
  • 3.13.b Search rules
  • 3.13.c Zones
  • 3.13.d Subzones

3.14 Implement and troubleshoot Cisco Spark Services

  • 3.14.a Extending cloud services using on premise resources
  • 3.14.b Cloud service management

4.0 Endpoints, User Management, and Mobility

4.1 Implement and troubleshoot hardware and software endpoint registration in a multi-cluster environment

  • 4.1.a On-premise (local or proxy TFTP)
  • 4.1.b Mobile and Remote Access (Service Discovery)
  • 4.1.c Cloud

4.2 Implement and troubleshoot mixed mode and Security By Default (SBD) on Unified CM

  • 4.2.a Certificate Trust List (CTL) and Identity Trust List (ITL)
  • 4.2.b Token and token-less
  • 4.2.c Trust Verification Service (TVS)

4.3 Implement collaboration endpoints and infrastructure using IPv6

4.4 Implement and troubleshoot endpoint features

  • 4.4.a Proximity
  • 4.4.b Directory integration and search
  • 4.4.c Product specific configurations
  • 4.4.d Multistream

4.5 Integrate and troubleshoot LDAP synchronization and authentication

  • 4.5.a On-premise
  • 4.5.b Cloud

4.6 Integrate and troubleshoot Single-Sign-On (SSO)

4.7 Implement and troubleshoot self-provisioning

4.8 Implement and troubleshoot mobility features

  • 4.8.a Mobile Connect (Single Number Reach)
  • 4.8.b Device Mobility
  • 4.8.c Mobile Identity
  • 4.8.d Extend and Connect

4.9 Implement and troubleshoot Extension Mobility Cross Cluster (EMCC)

  • 4.9.a Emergency dialing considerations
  • 4.9.b Certificate exchange

5.0 Edge Services

5.1 Implement and troubleshoot ISDN PRI gateways

5.2 Implement and troubleshoot SIP trunks in a multi-tenant environment

  • 5.2.a Authentication
  • 5.2.b Multi-VRF SIP trunks

5.3 Implement and troubleshoot SIP normalization and SDP normalization

  • 5.3.a Normalization and transparency scripts (Lua)
  • 5.3.b Cisco IOS-XE SIP profiles

5.4 Implement and troubleshoot encrypted signaling and media on trunks

5.5 Implement and troubleshoot stateful box-to-box redundancy on CUBE (Cisco IOS-XE)

5.6 Implement and troubleshoot network and application level security on Cisco IOS-XE

  • 5.6.a IP Trust List
  • 5.6.b Call spike protection
  • 5.6.c Media policing
  • 5.6.d Call thresholds
  • 5.6.e RTP port ranges
  • 5.6.f Telephony denial of service attacks

5.7 Design, analyze, and troubleshoot firewall traversal in a Collaboration solution

  • 5.7.a Port numbers and transport
  • 5.7.b NAT
  • 5.7.c Proxy servers
  • 5.7.d Deep Packet Inspection considerations
  • 5.7.e Trusted Relay Point
  • 5.7.f Interactive Connectivity Establishment (ICE)

5.8 Implement and troubleshoot Expressway Series traversal communications

  • 5.8.a Traversal zone
  • 5.8.b SSH tunnels

5.9 Implement and troubleshoot Mobile and Remote Access (MRA)

5.10 Implement and troubleshoot network and application level security on Expressway Series

  • 5.10.a Toll fraud prevention (CPL)
  • 5.10.b Zone and subzone authentication
  • 5.10.c Automated intrusion protection
  • 5.10.d Mutual TLS

5.11 Implement and troubleshoot call routing for Spark hybrid services and Business-to-Business (B2B) calling

5.12 Implement and troubleshoot Spark hybrid service connectors and containers

5.13 Implement and troubleshoot third-party interoperability and federation

  • 5.13.a Voice and video calling
  • 5.13.b IM&P

6.0 Media Resources, Meetings, and Call Recording

6.1 Design, implement, and troubleshoot media resources

  • 6.1.a Transcoding and transrating
  • 6.1.b MTP

6.2 Implement and troubleshoot rendezvous conferencing

  • 6.2.a Unified CM Conference Now
  • 6.2.b Cisco Meeting Server Spaces

6.3 Implement and troubleshoot ad-hoc conferencing

  • 6.3.a Cisco IOS-XE conferencing
  • 6.3.b Cisco Meeting Server
  • 6.3.c Cloud

6.4 Implement and troubleshoot scheduled meetings

  • 6.4.a On-premise
  • 6.4.b Hybrid
  • 6.4.c Cloud

6.5 Implement and troubleshoot CallBridge and WebBridge on Cisco Meeting Server

  • 6.5.a Internal user access
  • 6.5.b External user access

6.6 Implement and troubleshoot high availability on Cisco Meeting Server

6.7 Design, implement, and troubleshoot audio and video call recording architectures

  • 6.7.a Open Recording Architecture (ORA)
  • 6.7.b SIP-based Media Recording (SIPREC)
  • 6.7.c Network-Based Recording (gateway preferred)
  • 6.7.d Built-in bridge
  • 6.7.e Cisco Meeting Server

7.0 Collaboration Applications

7.1 Implement and troubleshoot on premise IM&P servers and clients

7.2 Implement and troubleshoot presence

  • 7.2.a Busy Lamp Field (BLF)
  • 7.2.b Soft client
  • 7.2.c Cloud

7.3 Integrate IM&P server with external database to enable Persistent Chat and Group Chat

7.4 Implement and troubleshoot voicemail integration

  • 7.4.a Cisco Unity Connection
  • 7.4.b Virtual Cisco Unity Express (vCUE)

7.5 Implement and troubleshoot voicemail features

  • 7.5.a Call and directory handlers
  • 7.5.b Voicemail access from soft clients
  • 7.5.c Video greetings and messaging

7.6 Implement and troubleshoot voicemail dial plan

  • 7.6.a Partitions and search spaces
  • 7.6.b Routing rules

7.7 Implement and troubleshoot voicemail digital networking

7.8 Design, implement, and troubleshoot Cisco Unified Contact Center Express (UCCX)

  • 7.8.a Integration
  • 7.8.b Scripting

7.9 Implement and troubleshoot Contact Center agent desktop (Finesse)

8.0 Evolving Technologies v1.1

8.1 Cloud

  • 8.1.a Compare and contrast public, private, hybrid, and multicloud design considerations
    • 8.1.a [i] Infrastructure, platform, and software as a service (XaaS)
    • 8.1.a [ii] Performance, scalability, and high availability
    • 8.1.a [iii] Security implications, compliance, and policy
    • 8.1.a [iv] Workload migration
  • 8.1.b Describe cloud infrastructure and operations
    • 8.1.b [i] Compute virtualization (containers and virtual machines)
    • 8.1.b [ii] Connectivity (virtual switches, SD-WAN and SD-Access)
    • 8.1.b [iii] Virtualization functions (NFVi, VNF, and L4/L6)
    • 8.1.b [iv] Automation and orchestration tools (CloudCenter, DNA-center, and Kubernetes)

8.2 Network programmability (SDN)

  • 8.2.a Describe architectural and operational considerations for a programmable network
    • 8.2.a [i] Data models and structures (YANG, JSON and XML)
    • 8.2.a [i] Device programmability (gRPC, NETCONF and RESTCONF)
    • 8.2.a [ii] Controller based network design (policy driven configuration and northbound/ southbound APIs)
    • 8.2.a [iii] Configuration management tools (agent and agentless) and version control systems (Git and SVN)

8.3 Internet of things (IoT)

  • 8.3.a Describe architectural framework and deployment considerations for IoT
    • 8.3.a [i] IoT technology stack (IoT Network Hierarchy, data acquisition and flow)
    • 8.3.a [ii] IoT standards and protocols (characteristics within IT and OT environment)
    • 8.3.a [iii] IoT security (network segmentation, device profiling, and secure remote)

Candidates need to undertake below exam

Exam Name: Exam Code : Fees Duration: Registration:
CCIE Collaboration 400-051 (90-110 questions) $450 120 minutes Pearson VUE

Upon completing this course, you will have the skills and knowledge of:

  • Capture, analyze, and troubleshoot IP collaboration signaling protocols
  • Implement and troubleshoot SDP and media negotiation
  • Analyze and troubleshoot SIP identity headers
  • Capture, analyze, and troubleshoot media protocols
  • Design, implement, and troubleshoot DTMF relay
  • Capture, analyze, and troubleshoot messaging protocols
  • Capture, analyze, and troubleshoot legacy telephony protocols
  • Utilize and troubleshoot the following APIs
  • Describe the functionality of the following APIs
  • Implement and troubleshoot network services
  • Troubleshoot layer 2 and layer 3 network connectivity issues
  • Identify key implications of running collaboration in a wireless environment
  • Design, implement, and troubleshoot Quality of Service for Collaboration applications and endpoints on LAN/WAN/WLAN (Cisco IOS-XE and AireOS)
  • Troubleshoot voice and video quality issues
  • Collect and analyze packet captures on Cisco Collaboration platforms
  • Design, implement, and troubleshoot Enhanced Locations Call Admission Control (ELCAC)
  • Design, implement, and troubleshoot Call Admission Control on CUBE
  • Describe APIC-EM integration with Cisco Collaboration solutions
  • Design, implement, and troubleshoot Collaboration applications in a virtualized environment
  • Design and analyze global dial plans
  • Design, implement, and troubleshoot fundamental dial plan features on Unified CM
  • Design, implement, and troubleshoot advanced dial plan features on Unified CM
  • Design, implement, and troubleshoot URI and domain-based routing
  • Implement and troubleshoot Unified CM telephony features
  • Design, implement, and troubleshoot audio and video codec selection
  • Implement and troubleshoot SIP trunking
  • Implement and troubleshoot UDS in a multi-cluster environment
  • Verify and troubleshoot Unified CM database replication
  • Design, implement, and troubleshoot dial plans on Cisco IOS-XE
  • Implement and troubleshoot SIP call control for Unified CME
  • Implement and troubleshoot SIP-SRST and E-SRST
  • Design, implement, and troubleshoot dial plans on Expressway Series
  • Implement and troubleshoot Cisco Spark Services
  • Implement and troubleshoot hardware and software endpoint registration in a multi-cluster environment
  • Implement and troubleshoot mixed mode and Security By Default (SBD) on Unified CM
  • Implement collaboration endpoints and infrastructure using IPv6
  • Implement and troubleshoot endpoint features
  • Integrate and troubleshoot LDAP synchronization and authentication
  • Integrate and troubleshoot Single-Sign-On (SSO)
  • Implement and troubleshoot self-provisioning
  • Implement and troubleshoot mobility features
  • Implement and troubleshoot Extension Mobility Cross Cluster (EMCC)
  • Implement and troubleshoot ISDN PRI gateways
  • Implement and troubleshoot SIP trunks in a multi-tenant environment
  • Implement and troubleshoot SIP normalization and SDP normalization
  • Implement and troubleshoot encrypted signaling and media on trunks
  • Implement and troubleshoot stateful box-to-box redundancy on CUBE (Cisco IOS-XE)
  • Implement and troubleshoot network and application level security on Cisco IOS-XE
  • Design, analyze, and troubleshoot firewall traversal in a Collaboration solution
  • Implement and troubleshoot Expressway Series traversal communications
  • Implement and troubleshoot Mobile and Remote Access (MRA)
  • Implement and troubleshoot network and application level security on Expressway Series
  • Implement and troubleshoot call routing for Spark hybrid services and Business-to-Business (B2B) calling
  • Implement and troubleshoot Spark hybrid service connectors and containers
  • Implement and troubleshoot third-party interoperability and federation
  • Design, implement, and troubleshoot media resources
  • Implement and troubleshoot rendezvous conferencing
  • Implement and troubleshoot ad-hoc conferencing
  • Implement and troubleshoot scheduled meetings
  • Implement and troubleshoot CallBridge and WebBridge on Cisco Meeting Server
  • Implement and troubleshoot high availability on Cisco Meeting Server
  • Design, implement, and troubleshoot audio and video call recording architectures
  • Implement and troubleshoot on premise IM&P servers and clients
  • Implement and troubleshoot presence
  • Integrate IM&P server with external database to enable Persistent Chat and Group Chat
  • Implement and troubleshoot voicemail integration
  • Implement and troubleshoot voicemail features
  • Implement and troubleshoot voicemail dial plan
  • Implement and troubleshoot voicemail digital networking
  • Design, implement, and troubleshoot Cisco Unified Contact Center Express (UCCX)
  • Implement and troubleshoot Contact Center agent desktop (Finesse)
  • Cloud
  • Network programmability (SDN)
  • Internet of things (IoT)

Candidates will have Employment Opportunities with following Job Title:

  • Sr. Network Collaboration Engineers
  • Sr. Network Collaboration Administrators
  • Sr. Network Collaboration Support Engineers
  • Sr. Network Collaboration Consultant
  • Sr. Technical Consultant

Schedule

Upcoming Batches
Weekday Batch: Weekend Batch:
On Request On Request


Frequently Asked Question

What is CCIE Collaboration Certification?

The CCIE Collaboration certification is for Collaboration Architects, Unified Communications Architects, or Voice and Video Network Managers who are responsible for the design, implementation, and troubleshooting of complex collaboration solutions. The certification is an expert-level certification that ensures that you gain knowledge and experience in collaboration solutions integration and interoperation, configuration, and troubleshooting in complex networks and the challenges of video, mobility, and presence as the foundation for workplace collaboration solutions.

What is the duration of CCIE Collaboration course?

The duration of course depends on the batch you select. Regular (mon – fri) classroom training takes 8 weeks or 120 hours, or Weekend (sat – sun) classroom training takes 2 Months or 120 hours. You can choose and check out the schedule and fees accordingly.

When do I get my CCIE Collaboration certificate after passing an exam?

As per the procedures, printed CCIE Collaboration Certification takes 6-8 weeks to reach you by mail. Check the status of your certificate in your Certification Tracking System. Date with a “Mailed” status implies the dispatch of your certificate on that date. No status found or 8 weeks are over, register a case with Certification & Communities Online Support team at www.cisco.com/go/certsupport.

What is the exam code of current version of CCIE Collaboration Exam?

o 400-051 Written Exam
o CCIE Collaboration Lab Exam

What study material are referred for CCIE Collaboration training?

Cisco press books, latest workbooks prepared & revised regularly by experts.

How much am I expected to earn once I get CCIE Collaboration Certified?

You may earn between 6,00,000 – 7,00,000 INR which may increase significantly with work experience, improved hands-on skills and other related factors.

Is online mode available for the CCIE Collaboration training?

Yes. The batches are available in both weekdays as well as weekends in morning and evening sessions.

What are the facilities that Octa Networks provide for CCIE Collaboration Certification?

We provide lab training facility in Asia with 24×7 Lab access with rack and lab administrator guide. We offer great value for money to all our candidates through Personality development sessions. Our training is best in Mumbai and our trainers are CCIE Certified.

Is weekend training available for working professionals?

Yes

How to get recertified in CCIE Collaboration? Is it necessary?

To maintain active status, every 24-months CCIEs have the flexibility and option to recertify using one of the options below before the certification expiration date:
o Earn the required credits through the Cisco Continuing Education Program, or
o Pass any current CCIE Written Exam OR CCIE Lab Exam, or
o Pass the current CCDE Written Exam OR current CCDE Practical Exam, or
o Pass the Cisco Certified Architect (CCAr) interview AND the CCAr board review to extend lower certifications.

How many questions does the CCIE Collaboration certification exam consist of?

o 400-051 Written Exam – 90 – 110 questions

Reviews & Comments

Student Reviews

#CCNP_Jan_2019
#Octa_Networks
Yesterday we learned the basics of BGP including property, message types, states,role of igp into bgp and Rathod sir explained how messages are involved with states of bgp.
I left the class after half session because of office work 😞 and could not attend the remaining last 45 minuets.
But one thing is best and will be always best that our Trainer Jagdish Sir is always in positive mode and clear our doubt positively.
Thank you Jagdish sir, Arshad Sir and Octa networks for providing such an opportunity to learn the technology.
Jagdish Sir is doing his best in all session with same energy……….

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Thank You Octa Networks arshad Dhunna and Joaquim Fernandes for providing this Great Opportunity.

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Thanks Octa Networks


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