CCNA Routing and Switching

CCNA Routing and Switching

CCNA Routing & Switching Training Courses - Networking

INTRODUCTION :The CCNA R&S certification helps a candidate learn the ability to install, configure, operate, and troubleshoot medium-size routed and switched networks. CCNA certified professionals have the aptitude and skills to make connections to remote sites via a WAN, and mitigate basic security threats. Proideators CCNA R&S training covers (but is not limited to) the use of these topics: IOS, IPv6, IPv4, OSPF, Cisco Licensing, Enhanced Interior Gateway Routing Protocol (EIGRP), Serial Line Interfaces, Frame Relay interfaces VLANs, Ethernet, VLSM, and basic traffic filtering.

The Cisco Routing and Switching exam results are valid for 3 years. Our team of experts give individual attention and help each candidate to excel and crack the exam in the 1st attempt. Our daily schedule includes compulsory lab time to encourage candidates to get familiar with the latest technology in the market offered by Cisco.
Our head office situated in Thane and training centre available in Borivali Mumbai, Navi Mumbai, India. We provide Online Training across the world.


CCNA Routing and Switching

DURATION: 40 Hours


Daily Batches : 
7am to 9am (2hrs Morning Batch)
7pm to 9pm (2hrs Evening Batch)

Fast Track Full Time Batches :
10am to 6pm (8hrs Monday to Friday)

Weekend Batches : 
Saturday Batches : 10 am to 6 pm (8hrs)
Sunday Batches : 10 am to 6 pm (8hrs)

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    • The course is based on CISCO guidelines
    • Dedicated attention by instructors to Monitoring and evaluate candidates' progress on a daily basis
    • Daily lab exercises to give extensive familiarity with the equipment
    • Regular evaluation
    • Industry Experienced CISCO Certified instructors
    • The CCNA module is designed to meet the objective of the CCNA program.
    • The course is customized keeping in mind the ultimate aim of achieving technology proficiency and CCNA certification.
    • Dedicated Professional to manage, track and evaluate the candidate's performance from registration to completion.
    • This course is especially beneficial for candidates who aim at building academic knowledge that is supplemented by applied lab exercises.
    • 10 week or 25 days, of intensive training.
    • Course kits contains reference material and add ons to enable students prepare better.
    • Apt balance of theoretical and practical application
    • Customized tests at the end of course to ensure best results.
    • Stern passing standards with progress report of each candidate.
    • Facility of Lab on cloud for students who want to practice remotely
    • Students can attend the same lecture numerous times till they feel comfortable with the topic.


    • Describe basic networking terminology, and internetworking concepts
    • Identify the major components of a network system, including clients and servers, network interface cards (NICs), internetworking devices, media, and topologies
    • Describe the functions, operations, and primary components of local-area networks (LANs), wide-area networks (WANs), metropolitan-area networks (MANs), storage-area networks (SANs), content networks (CNs), and virtual private networks (VPNs)
    • Illustrate the major network access methods and outline the key features of each
    • Describe the functions and operations of switching technologies
    • Explain the format and significance of each of the following components to a network system: IP addressing, classes, reserved address space, and subnetting
    • Calculate valid subnetwork addresses and mask values so that user/network requirements are met when given an IP address scheme
    • Explain the purposes of networking addresses, routing protocols, and routed protocols
    • illustrate the functions, operations, and primary components of WAN technologies and remote access service
    • Use available configuration tools to establish connectivity to the appropriate network device in order to complete the initial device configuration
    • Build a functional configuration to support the specified network operational requirements, given a network design
    • Use the proper show and debug commands to detect anomalies.
    • Explain how bridging and switching operates
    • Explain the purpose and operations of the Spanning-Tree Protocol
    • Build a functional router configuration to support the specified network operational requirements, given a network design
    • Describe the features and operation of static routing


    Following Topics will be covered in CCNA Course:


    • Compare and contrast OSI and TCP/IP models
    • Compare and contrast TCP and UDP protocols
    • Describe the impact of infrastructure components in an enterprise network
      • Firewalls
      • Access points
      • Wireless controller
    • Describe the effects of cloud resources on enterprise network architecture
      • Traffic path to internal and external cloud services
      • Virtual services
      • Basic virtual network infrastructure
    • Compare and contrast collapsed core and three-tier architectures
    • Compare and contrast network topologies
      • Star
      • Mesh
      • Hybrid
    • Select the appropriate cabling type based on implementation requirements
    • Apply troubleshooting methodologies to resolve problems
      • Perform and document fault isolation
      • Resolve or escalate
      • Verify and monitor resolution
    • Configure, verify, and troubleshoot IPv4 addressing and subnetting
    • Compare and contrast IPv4 address types
      • Unicast
      • Broadcast
      • Multicast
    • Describe the need for private IPv4 addressing
    • Identify the appropriate IPv6 addressing scheme to satisfy addressing requirements in a LAN/WAN environment
    • Configure, verify, and troubleshoot IPv6 addressing
      • Configure and verify IPv6 Stateless Address Auto Configuration
      • Compare and contrast IPv6 address types
        • Global unicast
        • Unique local
        • Link local
        • Multicast
        • Modified EUI 64
        • Autoconfiguration
        • Anycast



    • Describe and verify switching concepts
      • MAC learning and aging
      • Frame switching
      • Frame flooding
      • MAC address table
      • Interpret Ethernet frame format
    • Troubleshoot interface and cable issues (collisions, errors, duplex, speed)
    • Configure, verify, and troubleshoot VLANs (normal/extended range) spanning multiple switches
      • Access ports (data and voice)
      • Default VLAN
    • Configure, verify, and troubleshoot interswitch connectivity
      • Trunk ports
      • Add and remove VLANs on a trunk
      • DTP, VTP (v1&v2), and 802.1Q
      • Native VLAN
    • Configure, verify, and troubleshoot STP protocols
      • STP mode (PVST+ and RPVST+)
      • STP root bridge selection
    • Configure, verify and troubleshoot STP related optional features
      • PortFast
      • BPDU guard
    • Configure and verify Layer 2 protocols
      • Cisco Discovery Protocol
      • LLDP
    • Configure, verify, and troubleshoot (Layer 2/Layer 3) EtherChannel
      • Static
      • PAGP
      • LACP
    • Describe the benefits of switch stacking and chassis aggregation



    • Describe the routing concepts
      • Packet handling along the path through a network
      • Forwarding decision based on route lookup
      • Frame rewrite
    • Interpret the components of a routing table
      • Prefix
      • Network mask
      • Next hop
      • Routing protocol code
      • Administrative distance
      • Metric
      • Gateway of last resort
    • Describe how a routing table is populated by different routing information sources
      • Admin distance
    • Configure, verify, and troubleshoot inter-VLAN routing
      • Router on a stick
      • SVI
    • Compare and contrast static routing and dynamic routing
    • Compare and contrast distance vector and link state routing protocols
    • Compare and contrast interior and exterior routing protocols
    • Configure, verify, and troubleshoot IPv4 and IPv6 static routing
      • Default route
      • Network route
      • Host route
      • Floating static
    • Configure, verify, and troubleshoot single area and multi-area OSPFv2 for IPv4 (excluding authentication, filtering, manual summarization, redistribution, stub, virtuallink, and LSAs)
    • Configure, verify, and troubleshoot single area and multi-area OSPFv3 for IPv6 (excluding authentication, filtering, manual summarization, redistribution, stub, virtuallink, and LSAs)
    • Configure, verify, and troubleshoot EIGRP for IPV4(excluding authentication, filtering, manual summarization, redistribution, stub)
    • Configure, verify, and troubleshoot EIGRP for IPv6 (excluding authentication, filtering, manual summarization, redistribution, stub)
    • Configure, verify, and troubleshoot RIPv2 for IPv4 (excluding authentication, filtering, manual summarization, redistribution)
    • Troubleshoot basic Layer 3 end-to-end connectivity issues


    • Configure and verify PPP and MLPPP on WAN interfaces using local authentication
    • Configure, verify, and troubleshoot PPPoE client-side interfaces using local authentication
    • Configure, verify, and troubleshoot GRE tunnel connectivity
    • Describe WAN topology options
      • Point-to-point
      • Hub and spoke
      • Full mesh
      • Single vs dual-homed
    • Describe WAN access connectivity options
      • MPLS
      • Metro Ethernet
      • Broadband PPPoE
      • Internet VPN (DMVPN, site-to-site VPN, client VPN)
    • Configure and verify single-homed branch connectivity using eBGP IPv4 (limited to peering and route advertisement using Network command only)
    • Describe basic QoS concepts
      • Marking
      • Device trust
      • Prioritization
        • Voice
        • Video
        • Data
      • Shaping
      • Policing
      • Congestion management



    • Describe DNS lookup operation
    • Troubleshoot client connectivity issues involving DNS
    • Configure and verify DHCP on a router (excluding static reservations)
      • Server
      • Relay
      • Client 5.3.d TFTP, DNS, and gateway options
    • Troubleshoot client- and router-based DHCP connectivity issues
    • Configure, verify, and troubleshoot basic HSRP
      • Priority
      • Preemption
      • Version
    • Configure, verify, and troubleshoot inside source NAT
      • Static
      • Pool
      • PAT
    • Configure and verify NTP operating in a client/server mode



    • Configure, verify, and troubleshoot port security
      • Static
      • Dynamic
      • Sticky
      • Max MAC addresses
      • Violation actions
      • Err-disable recovery
    • Describe common access layer threat mitigation techniques
      • 1x
      • DHCP snooping
      • Nondefault native VLAN
    • Configure, verify, and troubleshoot IPv4 and IPv6 access list for traffic filtering
      • Standard
      • Extended
      • Named
    • Verify ACLs using the APIC-EM Path Trace ACL Analysis tool
    • Configure, verify, and troubleshoot basic device hardening
      • Local authentication
      • Secure password
      • Access to device
        • Source address
        • Telnet/SSH
    • Login banner
    • Describe device security using AAA with TACACS+ and RADIUS
      • Login banner
    • Describe device security using AAA with TACACS+ and RADIUS



    • Configure and verify device-monitoring protocols
      • SNMPv2
      • SNMPv3
      • Syslog
    • Troubleshoot network connectivity issues using ICMP echo-based IP SLA
    • Configure and verify device management
      • Backup and restore device configuration
      • Using Cisco Discovery Protocol or LLDP for device discovery
      • Licensing
      • Logging
      • Timezone
      • Loopback
    • Configure and verify initial device configuration
    • Perform device maintenance
      • Cisco IOS upgrades and recovery (SCP, FTP, TFTP, and MD5 verify)
      • Password recovery and configuration register
      • File system management
    • Use Cisco IOS tools to troubleshoot and resolve problems
      • Ping and traceroute with extended option
      • Terminal monitor
      • Log events
      • Local SPAN
    • Describe network programmability in enterprise network architecture
      • Function of a controller
      • Separation of control plane and data plane
      • Northbound and southbound APIs

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