The CCNA Fast Track Bootcamp is a thorough and exciting course created to hasten the process of turning you into a highly competent networking professional. You will obtain a firm understanding of networking principles as well as the crucial abilities needed to succeed in the cutthroat CCNA course in dubai market in this rigorous course.
This boot camp offers a targeted learning experience that enables you to rapidly and efficiently understand complicated networking fundamentals through a combination of hands-on lab exercises, realistic simulations, and expert-led instruction.
Here You will delve into the important areas of networking, such as network access, connection, and services as well as security basics, automation, and programmability.
We will learn the ideas and procedures required to configure Cisco routers in multiprotocol internetworks in this CCNA Bootcamp course. You will construct a Cisco network from the ground up throughout the course.
This experience will provide you with the practical knowledge necessary to configure and manage Cisco routers in the real world, along with lectures, discussions, exercises, and tough labs.
WHAT YOU’LL DISCOVER
Recognize the network’s hardware and software components.
Configure and Install IPv4 and IPv6 Networks
Set up Cisco switches and routers
Recognize the host-to-host communication model.
Describe the IOS software’s features.
Activate IP Subnetting
Identify and fix IPv4 and IPv6 addressing network problems
Set up and check IPv6 connectivity
put virtual local area networks in place trunks and VLANs
Link aggregation configuration for EtherChannel
Apply WAN and VPN principles.
Apply access control lists (ACLs) to the network and implement them.
OSPF, NTP, and DNS implementation and utilization in the network SNMP
DHCP and NAT usage with Cisco routers
Using wireless networks
Installing and configuring Wireless LAN Controllers
Network virtualization is utilized
Implement software-defined networking (SDN) and network programmability
Set up IOS system monitoring software
Put in place a fundamental security setup
200-301 Cisco Certified Network Associate Certification Exam – $300
WHO OUGHT TO ATTEND
For those hoping to pass the CCNA certification exam and pursue a career in CISCO networking, this CCNA course is advised. It’s ideal for networking engineers with little experience, IT aficionados, and computer technicians who maintain, run, and set up computer networks.
basic understanding of software and hardware for computers.
Students will be prepared to work as network administrators, junior network engineers, or IT systems managers after completing the course.
CCNA Training Syllabus
Recognizing network elements Functions
familiarizing and comprehending catalyst switches at levels 2 and 3
installing Next-generation firewalls and IPS
Access points use
Using WLC Controllers and the Cisco DNA Center
Designing network topologies and architecture
2nd, 3rd tier
Implementing On-premises and the Cloud
types of physical interface and cabling
Copper Ethernet shared media, single-mode fiber, multimode fiber, and point-to-point connections
Identify interface and cable problems (collisions, errors, mismatch duplex, and/or speed) using concepts of PoE
UDP and TCP
Addressing and subnetting in IPv4
Configure and check IPv6 address types and prefixes.
One-of-a-kind local Link-local Anycast
modified EUI 64 IP settings for Windows, Mac OS, and Linux clients
principles of wireless
channels of Wi-Fi that don’t overlap
SSID RF Encryption
Basics of virtualization (virtual machines)
MAC aging and learning
MAC address table frame flooding
VLANs (typical range) for network access spanning several switches
Access points (voice and data)
VLAN Network Connectivity by Default
interconnection of switches
Cisco Discovery Protocol and LLDP are two layer 2 discovery protocols.
Recognize the fundamental functions of Layer 2/Layer 3 EtherChannel (LACP) Rapid PVST+ Spanning Tree Protocol.
Other port names include root bridge (primary/secondary), root port, and
(Forwarding/Blocking) Port States
AP modes and Cisco Wireless Architectures
WLAN component physical infrastructure connections (AP, WLC, access/trunk ports, and LAG)
AP and WLC administration access connections (console, TACACS+/RADIUS, SSH, HTTP, HTTPS)
WLAN creation, security configurations, and QoS profiles are only a few examples of components of wireless LAN access for client connectivity that use the GUI.
Modern WLAN configurations
Interpret the routing table’s elements
protocol for routing
As a final resort, use Metric Gateway
Find out how a router decides to forward traffic by default.
the longest game
protocol metric for routing
Set up and confirm Static routing for IPv4 and IPv6
The default path
a network path
single region OSPFv2
Transmission (DR/BDR option)
Describe the first-hop redundancy protocol’s goals.
NAT utilizing static IP services and pools
functioning in client-server mode with NTP
DNS and DHCP are used on the network.
Network operations using SNMP
Features, facilities, and levels for Syslog
Client and relay for DHCP
Per-hop forwarding behavior
QoS practices like categorization, tagging, congestion, policing, and shaping
SSH-enabled network devices for remote access
the network’s TFTP/FTP functions
Basic Security Concepts
Threats, vulnerabilities, exploits, and mitigation strategies are examples of security concepts.
User awareness, training, and physical access control are components of a security program.
Controlling device access with local passwords
Management, complexity, and password alternatives (multifactor authentication, certificates, and biometrics) are some of the components of security password rules.
Site-to-site VPNs and remote access
DHCP snooping, dynamic ARP inspection, and port security are examples of Layer 2 security features.
Concepts of authentication, authorization, and accounting
(WPA, WPA2, and WPA3) wireless security protocols
WLAN using the GUI and WPA2 PSK
Programming and automation
In network management, automation
Controller-based networking and conventional networks
Software-defined architectures (overlay, underlay, and fabric) and controller-based architectures
the control plane and data plane separation
APIs with a north and south direction
Compare conventional campus device management to device management supported by Cisco DNA Center.
REST-based API characteristics (CRUD, HTTP verbs, and data encoding)
Configuration management methods’ capabilities Chef, Puppet, and Ansible
How to decode JSON-encoded data