CCNA Security Training In Bangalore, Indore – India

Giving new wings to your career is possible in various ways. Completing extra courses and training programs in different technical languages are also one of them. If you are working as networking expert or want to do such courses to become IT expert, you have a better opportunity to fulfill your requirement by getting involved in CCNA Security Certification in India. There are numerous added benefits of applying for this course as it will bring you numerous added benefits, good hike in salary and a lot more.

If you are confused from where to start and hot to do this course, you have a better opportunity to fulfill your requirement.

Networkers Champ is a reliable platform fulfilling your requirement to apply for the best CCNA Security training in India or to get the right CCNA Security Certification in India. Here, you will get information about fee structure, certificaion cost, course procedure, procedure of enrolling your name and get precise information. Now, you can apply for such training courses in the best CCNA Security institute in Bangalore & Indore. Students and aspirants from across the country have a better opportunity to complete this training from Bangalore or Indore – the IT hub where better networking career opportunities are higher.

12% 1.0 Security Concepts

  • 1.1 Common security principles
  • 1.1.a Describe confidentiality, integrity, availability (CIA)
  • 1.1.b Describe SIEM technology
  • 1.1.c Identify common security terms
  • 1.1.d Identify common network security zones
  • 1.2 Common security threats
  • 1.2.a Identify common network attacks
  • 1.2.b Describe social engineering
  • 1.2.c Identify malware
  • 1.2.d Classify the vectors of data loss/exfiltration
  • 1.3 Cryptography concepts
  • 1.3.a Describe key exchange
  • 1.3.b Describe hash algorithm
  • 1.3.c Compare and contrast symmetric and asymmetric encryption
  • 1.3.d Describe digital signatures, certificates, and PKI
  • 1.4 Describe network topologies
  • 1.4.a Campus area network (CAN)
  • 1.4.b Cloud, wide area network (WAN)
  • 1.4.c Data center
  • 1.4.d Small office/home office (SOHO)
  • 1.4.e Network security for a virtual environment

14% 2.0 Secure Access

  • 2.1 Secure management
  • 2.1.a Compare in-band and out-of band
  • 2.1.b Configure secure network management
  • 2.1.c Configure and verify secure access through SNMP v3 using an ACL
  • 2.1.d Configure and verify security for NTP
  • 2.1.e Use SCP for file transfer
  • 2.2 AAA concepts
  • 2.2.a Describe RADIUS and TACACS+ technologies
  • 2.2.b Configure administrative access on a Cisco router using TACACS+
  • 2.2.c Verify connectivity on a Cisco router to a TACACS+ server
  • 2.2.d Explain the integration of Active Directory with AAA
  • 2.2.e Describe authentication and authorization using ACS and ISE
  • 2.3 802.1X authentication
  • 2.3.a Identify the functions 802.1X components
  • 2.4 BYOD
  • 2.4.a Describe the BYOD architecture framework
  • 2.4.b Describe the function of mobile device management (MDM)

17% 3.0 VPN

  • 3.1 VPN concepts
  • 3.1.a Describe IPsec protocols and delivery modes (IKE, ESP, AH, tunnel mode, transport mode)
  • 3.1.b Describe hairpinning, split tunneling, always-on, NAT traversal
  • 3.2 Remote access VPN
  • 3.2.a Implement basic clientless SSL VPN using ASDM
  • 3.2.b Verify clientless connection
  • 3.2.c Implement basic AnyConnect SSL VPN using ASDM
  • 3.2.d Verify AnyConnect connection
  • 3.2.e Identify endpoint posture assessment
  • 3.3 Site-to-site VPN
  • 3.3.a Implement an IPsec site-to-site VPN with pre-shared key authentication on Cisco routers and ASA firewalls
  • 3.3.b Verify an IPsec site-to-site VPN


18% 4.0 Secure Routing and Switching

  • 4.1 Security on Cisco routers
  • 4.1.a Configure multiple privilege levels
  • 4.1.b Configure Cisco IOS role-based CLI access
  • 4.1.c Implement Cisco IOS resilient configuration
  • 4.2 Securing routing protocols
  • 4.2.a Implement routing update authentication on OSPF
  • 4.3 Securing the control plane
  • 4.3.a Explain the function of control plane policing
  • 4.4 Common Layer 2 attacks
  • 4.4.a Describe STP attacks
  • 4.4.b Describe ARP spoofing
  • 4.4.c Describe MAC spoofing
  • 4.4.d Describe CAM table (MAC address table) overflows
  • 4.4.e Describe CDP/LLDP reconnaissance
  • 4.4.f Describe VLAN hopping
  • 4.4.g Describe DHCP spoofing
  • 4.5 Mitigation procedures
  • 4.5.a Implement DHCP snooping
  • 4.5.b Implement Dynamic ARP Inspection
  • 4.5.c Implement port security
  • 4.5.d Describe BPDU guard, root guard, loop guard
  • 4.5.e Verify mitigation procedures
  • 4.6 VLAN security
  • 4.6.a Describe the security implications of a PVLAN
  • 4.6.b Describe the security implications of a native VLAN

18% 5.0 Cisco Firewall Technologies

  • 5.1 Describe operational strengths and weaknesses of the different firewall technologies
  • 5.1.a Proxy firewalls
  • 5.1.b Application firewall
  • 5.1.c Personal firewall
  • 5.2 Compare stateful vs. stateless firewalls
  • 5.2.a Operations
  • 5.2.b Function of the state table
  • 5.3 Implement NAT on Cisco ASA 9.x
  • 5.3.a Static
  • 5.3.b Dynamic
  • 5.3.c PAT
  • 5.3.d Policy NAT
  • 5.3 e Verify NAT operations
  • 5.4 Implement zone-based firewall
  • 5.4.a Zone to zone
  • 5.4.b Self zone
  • 5.5 Firewall features on the Cisco Adaptive Security Appliance (ASA) 9.x
  • 5.5.a Configure ASA access management
  • 5.5.b Configure security access policies
  • 2015 Cisco Systems, Inc. This document is Cisco Public. Page 4
  • 5.5.c Configure Cisco ASA interface security levels
  • 5.5.d Configure default Cisco Modular Policy Framework (MPF)
  • 5.5.e Describe modes of deployment (routed firewall, transparent firewall)
  • 5.5.f Describe methods of implementing high availability
  • 5.5.g Describe security contexts
  • 5.5.h Describe firewall services

9% 6.0 IPS

  • 6.1 Describe IPS deployment considerations
  • 6.1.a Network-based IPS vs. host-based IPS
  • 6.1.b Modes of deployment (inline, promiscuous – SPAN, tap)
  • 6.1.c Placement (positioning of the IPS within the network)
  • 6.1.d False positives, false negatives, true positives, true negatives
  • 6.2 Describe IPS technologies
  • 6.2.a Rules/signatures
  • 6.2.b Detection/signature engines
  • 6.2.c Trigger actions/responses (drop, reset, block, alert, monitor/log, shun)
  • 6.2.d Blacklist (static and dynamic)

12% 7.0 Content and Endpoint Security

  • 7.1 Describe mitigation technology for email-based threats
  • 7.1.a SPAM filtering, anti-malware filtering, DLP, blacklisting, email encryption
  • 7.2 Describe mitigation technology for web-based threats
  • 7.2.a Local and cloud-based web proxies
  • 7.2.b Blacklisting, URL filtering, malware scanning, URL categorization, web application filtering, TLS/SSL decryption
  • 7.3 Describe mitigation technology for endpoint threats
  • 7.3.a Anti-virus/anti-malware
  • 7.3.b Personal firewall/HIPS
  • 7.3.c Hardware/software encryption of local data
Course Fee
Security Courses Regular Track Fast Track Super Fast Track Week End’s Cost in Indian Rupees
CCNA (IINS 210-260) 1.5 Months (2hrs) 20 Days (4hrs) 10 Days (8hrs) 6 Weeks (3hrs) Contact US
Exam Fee
Security Exam Subjects Cost in USD
CCNA (IINS 210-260) Implementing Cisco IOS Network Security $ 300

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