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CCIE Security

CCIE Security Overview

Octa Networks is renowned for being the best CCIE Security training Institute in Mumbai. We have fully capable Lab facility in Mumbai to complete the CCIE Security training. We offer high-end training to candidates in our 24×7 Cisco real devices. The CCIE Security Training is designed in accordance with the Cisco Blueprints for the CCIE Security 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 security domain.

CCIE Security certification is the industry standard for recognizing network security engineers who have demonstrated expert-level performance implementing, configuring, and troubleshooting Cisco network security solutions. Attaining and maintaining this performance-based, practical certification proves skills achievable only by network security experts and carries a prestige and honor envied by security professionals worldwide. To earn CCIE Security certification, you must not only prove your theoretical knowledge of security best practices in the CCIE Security written exam, but you must also demonstrate your skill in the CCIE Security lab exam using real equipment in real-world scenarios. Because of this rigorous process and the expert-level knowledge and skill it requires, CCIE Security certification is one of the most advanced network security certifications available and qualifies you to manage, lead, and design the most complex network security teams and projects.

Key Features of CCIE Security Training:

  • Candidates are provided guaranteed training on Cisco Physical Devices.
  • CCIE Security 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 CCIE Security Training Program:

Physical Devices
  • Cisco 3850 Catalyst Switch
  • Cisco 5512-X & 5515-X Adaptive Security Appliance
  • Cisco 2504 Wireless Controller
  • Cisco 1602E & 3700 Access Point
  • Cisco 7965 Unified IP Phone
Virtual Machines:
  • Security Appliances
    • Cisco Identity Services Engine (ISE): 2.1.0
    • Cisco Secure Access Control System (ACS): 5.8.0.32
    • Cisco Web Security Appliance (WSA): 9.2.0
    • Cisco Email Security Appliance (ESA): 9.7.1
    • Cisco Wireless Controller (WLC): 8.0.133
    • Cisco Firepower Management Center Virtual Appliance: 6.0.1 and/or 6.1
    • Cisco Firepower NGIPSv: 6.0.1
    • Cisco Firepower Threat Defense: 6.0.1
  • Core Devices
    • IOSv L2: 15.2
    • IOSv L3: 15.5(2)T
    • Cisco CSR 1000V Series Cloud Services Router: 3.16.02.S
    • Cisco Adaptive Security Virtual Appliance (ASAv): 9.6.1
Others
  • Test PC: Microsoft Windows 7
  • Active Directory: Microsoft Windows Server 2008
  • Cisco Application Policy Infrastructure Controller Enterprise Module : 1.2
  • Cisco Unified Communications Manager: 8.6.(1)
  • FireAMP Private Cloud
  • AnyConnect 4.2

Training Plan

Training Schedule
Weekdays (Mon-Fri) Weekend (Sat-Sun)
Duration 2 Months 3 Months
Hours 4 Hours / Day 8 Hours / Day
Fees 1,00,000 + Taxes 1,00,000 + Taxes
Training Mode Online/Onsite Online/Onsite

Group Discount
In a Group of 2 discount will be 10% per head
In a Group of 3 discount will be 15% per head
In a Group of 4 discount will be 20% per head

Trainer's Profile

NAIMAN KHAN

NAIMAN KHAN

CCIE#54008

Mr. Naiman Khan
CCIE Security v5 #54008

Mr. Naiman has over 6+ years of experience in Network Security and Wireless networking.
He is well qualified and holds various academic and professional qualifications, he holds Master’s in Computer Science
He is CCIE (Cisco Certified Internetwork Expert) in Security, MCSE and CEH certified.
Apart from MSc he holds keen interest in InfoSec as well…

Its been multiple years he has been associated with OctaNetworks, we are proud to have him has our Master Trainer.
He holds extensive knowledge in Network Security, Information Security and Cyber Security.

He knows very well how to train individuals and guides them accordingly.
He has assisted many engineers in their journey of CCIE Security and CCIE Wireless.

He has worked with several companies Deploying Multiple Projects in Security, Wireless platforms and sucessfully conducted several Corporate Trainings as well. He likes to keep updating himself with various new technologies hitting in the market.
In his free time he loves to go for cycling and watch movies.

Lab Facility

CCIE Security Course Details

Target Audience

  • Network security engineers with CCNP Security Certification who wants to enhance their skills and acquire in-depth know-how to secure complex Enterprise Network.
  • Network security engineer with at least three years of professional experience.
  • Network security engineers that need to use an expert-level problem-solving process that includes options analysis to secure and support complex network technologies and topologies.
  • Network security consultants that design and support complex enterprise network and topologies.

Prerequisites

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

Topics Covered:

1.0 Perimeter Security and Intrusion Prevention

1.1 Describe, implement, and troubleshoot HA features on Cisco ASA and Cisco FirePOWER Threat Defense (FTD)

1.2 Describe, implement, and troubleshoot clustering on Cisco ASA and Cisco FTD

1.3 Describe, implement, troubleshoot, and secure routing protocols on Cisco ASA and Cisco FTD

1.4 Describe, implement, and troubleshoot different deployment modes such as routed, transparent, single, and multicontext on Cisco ASA and Cisco FTD

1.5 Describe, implement, and troubleshoot firewall features such as NAT (v4,v6), PAT, application inspection, traffic zones, policy-based routing,  traffic redirection to service modules, and identity firewall on Cisco ASA and Cisco FTD

1.6 Describe, implement, and troubleshoot IOS security features such as Zone-Based Firewall (ZBF), application layer inspection, NAT (v4,v6), PAT and  TCP intercept on Cisco IOS/IOS-XE

1.7 Describe, implement, optimize, and troubleshoot policies and rules for traffic control on Cisco ASA, Cisco FirePOWER and Cisco FTD

1.8 Describe, implement, and troubleshoot Cisco Firepower Management Center (FMC) features such as alerting, logging, and reporting

1.9 Describe, implement, and troubleshoot correlation and remediation rules on Cisco FMC

1.10 Describe, implement, and troubleshoot Cisco FirePOWER and Cisco FTD deployment such as in-line, passive, and TAP modes

1.11 Describe, implement, and troubleshoot Next Generation Firewall (NGFW) features such as SSL inspection, user identity, geolocation, and AVC  (Firepower appliance)

1.12 Describe, detect, and mitigate common types of attacks such as DoS/DDoS, evasion techniques, spoofing, man-in-the-middle, and botnet

2.0 Advanced Threat Protection and Content Security

2.1 Compare and contrast different AMP solutions including public and private cloud deployment models

2.2 Describe, implement, and troubleshoot AMP for networks, AMP for endpoints, and AMP for content security (CWS, ESA, and WSA)

2.3 Detect, analyze, and mitigate malware incidents

2.4 Describe the benefit of threat intelligence provided by AMP Threat GRID

2.5 Perform packet capture and analysis using Wireshark, tcpdump, SPAN, and RSPAN

2.6 Describe, implement, and troubleshoot web filtering, user identification, and Application Visibility and Control (AVC)

2.7 Describe, implement, and troubleshoot mail policies, DLP, email quarantines, and SenderBase on ESA

2.8 Describe, implement, and troubleshoot SMTP authentication such as SPF and DKIM on ESA

2.9 Describe, implement, and troubleshoot SMTP encryption on ESA

2.10 Compare and contrast different LDAP query types on ESA

2.11 Describe, implement, and troubleshoot WCCP redirection

2.12 Compare and contrast different proxy methods such as SOCKS, Auto proxy/WPAD, and transparent

2.13 Describe, implement, and troubleshoot HTTPS decryption and DLP

2.14 Describe, implement, and troubleshoot CWS connectors on Cisco IOS routers, Cisco ASA, Cisco AnyConnect, and WSA

2.15 Describe the security benefits of leveraging the OpenDNS solution.

2.16 Describe, implement, and troubleshoot SMA for centralized content security management

2.17 Describe the security benefits of leveraging Lancope

3.0 Secure Connectivity and Segmentation

3.1 Compare and contrast cryptographic and hash algorithms such as AES, DES, 3DES, ECC, SHA, and MD5

3.2 Compare and contrast security protocols such as ISAKMP/IKEv1, IKEv2, SSL, TLS/DTLS, ESP, AH, SAP, and MKA

3.3 Describe, implementc and troubleshoot remote access VPN using technologies such as FLEXVPN, SSL-VPN between Cisco firewalls, routers, and end hosts

3.4 Describe, implement, and troubleshoot the Cisco IOS CA for VPN authentication

3.5 Describe, implement, and troubleshoot clientless SSL VPN technologies with DAP and smart tunnels on Cisco ASA and Cisco FTD

3.6 Describe, implement, and troubleshoot site-to-site VPNs such as GETVPN, DMVPN and IPsec

3.7 Describe, implement, and troubleshoot uplink and downlink MACsec (802.1AE)

3.8 Describe, implement, and troubleshoot VPN high availability using Cisco ASA VPN clustering and dual-hub DMVPN deployments

3.9 Describe the functions and security implications of cryptographic protocols such as AES, DES, 3DES, ECC, SHA, MD5, ISAKMP/IKEv1, IKEv2, SSL,  TLS/DTLS, ESP, AH, SAP, MKA, RSA, SCEP/EST, GDOI, X.509, WPA, WPA2, WEP, and TKIP

3.10 Describe the security benefits of network segmentation and isolation

3.11 Describe, implement, and troubleshoot VRF-Lite and VRF-Aware VPN

3.12 Describe, implement, and troubleshoot microsegmentation with TrustSec using SGT and SXP

3.13 Describe, implement, and troubleshoot infrastructure segmentation methods such as VLAN, PVLAN, and GRE

3.14 Describe the functionality of Cisco VSG used to secure virtual environments

3.15 Describe the security benefits of data center segmentation using ACI, EVPN, VXLAN, and NVGRE

4.0 Identity Management, Information Exchange, and Access Control

4.1 Describe, implement, and troubleshoot various personas of ISE in a multinode deployment

4.2 Describe, implement, and troubleshoot network access device (NAD), ISE, and ACS configuration for AAA

4.3 Describe, implement, and troubleshoot AAA for administrative access to Cisco network devices using ISE and ACS

4.4 Describe, implement, verify, and troubleshoot AAA for network access with 802.1X and MAB using ISE.

4.5 Describe, implement, verify, and troubleshoot cut-through proxy/auth-proxy using ISE as the AAA server

4.6 Describe, implement, verify, and troubleshoot guest life cycle management using ISE and Cisco network infrastructure

4.7 Describe, implement, verify, and troubleshoot BYOD on-boarding and network access flows with an internal or external CA

4.8 Describe, implement, verify, and troubleshoot ISE and ACS integration with external identity sources such as LDAP, AD, and external RADIUS

4.9 Describe ISE and ACS integration with external identity sources such as RADIUS Token, RSA SecurID, and SAML

4.10 Describe, implement, verify, and troubleshoot provisioning of AnyConnect with ISE and ASA

4.11 Describe, implement, verify, and troubleshoot posture assessment with ISE

4.12 Describe, implement, verify, and troubleshoot endpoint profiling using ISE and Cisco network infrastructure including device sensor

4.13 Describe, implement, verify, and troubleshoot integration of MDM with ISE

4.14 Describe, implement, verify, and troubleshoot certificate based authentication using ISE

4.15 Describe, implement, verify, and troubleshoot authentication methods such as EAP Chaining and Machine Access Restriction (MAR)

4.16 Describe the functions and security implications of AAA protocols such as RADIUS, TACACS+, LDAP/LDAPS, EAP (EAP-PEAP, EAP-TLS, EAP-TTLS, EAP-FAST,  EAP-TEAP, EAP- MD5, EAP-GTC), PAP, CHAP, and MS-CHAPv2

4.17 Describe, implement, and troubleshoot identity mapping on ASA, ISE, WSA and FirePOWER

4.18 Describe, implement, and troubleshoot pxGrid between security devices such as WSA, ISE, and Cisco FMC

5.0 Infrastructure Security, Virtualization, and Automation

5.1 Identify common attacks such as Smurf, VLAN hopping, and SYNful knock, and their mitigation techniques

5.2 Describe, implement, and troubleshoot device hardening techniques and control plane protection methods, such as CoPP and IP Source routing.

5.3 Describe, implement, and troubleshoot management plane protection techniques such as CPU and memory thresholding and securing device access

5.4 Describe, implement, and troubleshoot data plane protection techniques such as iACLs, uRPF, QoS, and RTBH

5.5 Describe, implement, and troubleshoot IPv4/v6 routing protocols security

5.6 Describe, implement, and troubleshoot Layer 2 security techniques such as DAI, IPDT, STP security, port security, DHCP snooping, and VACL

5.7 Describe, implement, and troubleshoot wireless security technologies such as WPA, WPA2, TKIP, and AES

5.8 Describe wireless security concepts such as FLEX Connect, wIPS, ANCHOR, Rogue AP, and Management Frame Protection (MFP)

5.9 Describe, implement, and troubleshoot monitoring protocols such as NETFLOW/IPFIX, SNMP, SYSLOG, RMON, NSEL, and eSTREAMER

5.10 Describe the functions and security implications of application protocols such as SSH, TELNET, TFTP, HTTP/HTTPS, SCP, SFTP/FTP, PGP, DNS/DNSSEC,  NTP, and DHCP

5.11 Describe the functions and security implications of network protocols such as VTP, 802.1Q, TCP/UDP, CDP, LACP/PAgP, BGP, EIGRP, OSPF/OSPFv3,  RIP/RIPng, IGMP/CGMP, PIM, IPv6, and WCCP

5.12 Describe the benefits of virtualizing security functions in the data center using ASAv, WSAv, ESAv, and NGIPSv

5.13 Describe the security principles of ACI such as object models, endpoint groups, policy enforcement, application network profiles, and contracts

5.14 Describe the northbound and southbound APIs of SDN controllers such as APIC-EM

5.15 Identify and implement security features to comply with organizational security policies, procedures, and standards such as BCP 38, ISO 27001, RFC  2827, and PCI-DSS

5.16 Describe and identify key threats to different places in the network (campus, data center, core, edge) as described in Cisco SAFE

5.17 Validate network security design for adherence to Cisco SAFE recommended practices

5.18 Interpret basic scripts that can retrieve and send data using RESTful API calls in scripting languages such as Python

5.19 Describe Cisco Digital Network Architecture (DNA) principles and components.

6.0 Evolving Technologies v1.1

6.1 Cloud

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

6.2 Network programmability (SDN)

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

6.3 Internet of things (IoT)

  • 6.3.a Describe architectural framework and deployment considerations for IoT
    • 6.3.a [i] IoT technology stack (IoT Network Hierarchy, data acquisition and flow)
    • 6.3.a [ii] IoT standards and protocols (characteristics within IT and OT environment)
    • 6.3.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 Security Written Exam 400-251
(90-110 questions)
$450 120 minutes Pearson VUE

Lab Exam Details

The lab exam is an eight-hour, hands-on exam which requires you to configure and troubleshoot a series of complex networks to given specifications. Knowledge of troubleshooting is an important skill and candidates are expected to diagnose and solve issues as part of the CCIE Collaboration lab exam.

Lab Exam can be booked once CCIE Written exam is cleared

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

  • Essentials of Cisco ASA
  • Basic connectivity and device management
  • Network integration
  • Configure common features of the Cisco ASA OS
  • Cisco ASA policy control
  • Core Cisco ASA VPN common components
  • Main VPN components
  • Cisco clientless VPN solutions
  • Cisco AnyConnect full tunnel VPN solution
  • Cisco ASA high availability and virtualization options
  • Features of Cisco ASA 5500-X Series Next-Generation Firewalls
  • Cisco ASA 5500-X Series Next-Generation Firewalls and the Cisco ASA Services Module (ASA SM)
  • Implement ASA Security Zones and Equal Cost Multipathing
  • Configure ASA 9.3/9.4 new features including: REST API for configuration, Policy Based Routing, ACL Manual Commit and ACL Forward Reference
  • Implement the Cisco ASA Identity Firewall Feature, including the use of the Cisco CDA
  • Implement the Cisco ASA SFR (FirePOWER Services) module
  • Configure Cisco ASA to integrate with Cisco Cloud Web Security to provide web security and filtering services through an SaaS model
  • Security Group Access Control (SGACL) feature in Cisco ASA Software 9.0 and later.
  • Implement a Cisco ASA Cluster feature which allows as many as eight Cisco ASA appliances to be joined in a single cluster
  • Fundamental ASA configuration from the CLI and ASDM
  • Administrative access using AAA, TACACS+, and Cisco ACS 5.x
  • Object (auto) NAT and manual (twice) NAT
  • Access control and troubleshooting tools
  • Application inspection and control (deep packet inspection)
  • ASAv using 9.4 code
  • Equal cost multipathing using ASA security zones
  • Policy Based Routing on the ASA
  • ACL enhancements including forward reference and manual commit
  • Using the REST API to configure the ASA
  • Configuring BGP support on the ASA using 9.4 code
  • Bootstrapping and configuring the SFR 6.0 software module
  • Deploying Cisco Context Directory Agent (CDA) with Active Directory
  • Features of Cisco ASA 5500-X Series Next-Generation Firewalls (NGFW ASA SFR)
  • SFR (FirePOWER Services) software module integration using FirePOWER Management Center 6.0 and access control, intrusion prevention, file policy, network discovery, Active Directory integration, user based access control, DNS, URL, and SSL policy
  • Cloud Web Security (ScanSafe) integration
  • Threat and botnet detection
  • Dynamic routing
  • Transparent firewall and bridge groups
  • Basic and advanced clientless SSL VPN
  • Full tunnel SSL VPN using AnyConnect 3.x Secure Mobility Client
  • Remote Access IPsec IKEv2 using AnyConnect 3.x
  • Easy VPN remote for the SOHO using ASA 5505
  • External AAA authentication of VPN users
  • PKI and VPN integration
  • Host scan and dynamic access policies (DAP) for VPN
  • IPsec VPN site-to-site between ASAs and with IOS router
  • ASA and ISE integration for TrustSec Firewall using Security Group Tags
  • Active/standby failover
  • ASA clustering including local and spanned EtherChannel

Candidates will have Employment Opportunities with following Job Title:

  • Network Engineers
  • Networking Administrators
  • Networking Specialists
  • Network Support Specialists
  • Network Consultants
  • System Integrators
  • System Engineers

Schedule

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


Frequently Asked Question

What is CCIE Security Certification?

The CCIE Security program is a program intended to recognize the Cisco network security experts who have the necessary skills to test, deploy, configure, maintain, and troubleshoot Cisco network security appliances and Cisco IOS Software devices that establish the security posture of the network.

What is the duration of CCIE 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 240 hours. You can choose and check out the schedule and fees accordingly

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

As per the procedures, printed CCIE Security 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 Security Written Exam?

400-251 CCIE Security Written

What study material are referred for CCIE Security training?

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

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

Fresher 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 Security 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 Security 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

What would be various job roles offered to a CCIE Security candidates?

  • Network Engineer
  • Senior Network Engineer
  • Network Administrator
  • Network Security Engineer
  • Network Security Administrator
  • Network Security Specialist

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

CCIEs are required to recertify every two years.
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:

  • Earn the required credits through the Cisco Continuing Education Program, or
  • Pass any current CCIE Written Exam OR CCIE Lab Exam, or
  • Pass the current CCDE Written Exam OR current CCDE Practical Exam, or
  • Pass the Cisco Certified Architect (CCAr) interview AND the CCAr board review to extend lower certifications

How many questions does the CCIE Security written certification exam consist of?

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……….

My self Krishnendu form Kolkata i have attended CCNA Service provider and CCNP routing and Switching training from Octa Network. My trainer is Mr jagdish Rathod. He teaches us everything in detail. Today we have competed HSRP, VRRP and GLBP theory as well as Practical sessions. I have cleared all my doubts related to HSRP. Thank you Octa Networks, Rathod Jagdish, Arshad Dhunna, and Joaquim Fernandes sir.

I have attended the CCNA Wireless 8am-10am class.I learnt about RRM and AP group RF. Mr.Vibhor Sir explained these concept in very well manner.He keeps the session very interactive and solves all the queries raised by Students.Thanks Octa networks for providing such a talented mentor.

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

Yes its true 🤩

First of all I am giving 100/100 and I strongly recommended Octa Networks to all from this entire world that if want to start your carrier in Networking field (it doesn’t matter you are from technical background on not) Octa Networks will makes you champion in Networking (CCNA, CCNP, CCIE in all tracks).

Wish you all the best Octa Networks. Arshad Dhunna. Rathod Jagdish.

Amitesh Arnav, India

Attending CCNA Security class from Manuhar Khan, he is delivering very good security lecture, very polite & answer all the queries. One thing that I must tell you about him, his example are really interesting by relating real environment, That you can’t forget easily.

Recommending OCTA NETWORKS
👌👌👌👌👌

Shan Vel

Octa network is such great place . To hole world global training Centre . I such a trainer is Jagdish Rathore sir provide training CCNA. / CCNP/ CCIE tramendous.. there his mind set .it’s great mentor , trainer , motivations .he is practically Person. Repeated every dout particular topic Clear..

Gaurav Kabre

Currently, I am taking CCNA Data Center training which is lead by Mr. Ronak Vyas. I appreciate his efforts in guiding and explaining the DC concepts. Also, he answers all the questions or doubts raised by the participants after explaining the topic.

Mr.Ronak very well explained step by step on concepts like UCS, OTV and VPC in Lab rack setup practically.
Thanks Octa Networks


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