Last updated 11/2024
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 2h 3m | Size: 1.14 GB
Cisco Routing and Switching Cisco Networking Administration CCNA Certification (200-301) Packet Tracer LAB and Config!!
What you'll learn
CCNA Certification (200-301) LAB
Cisco Packet Tracer LAB & Config
Cisco Routing and Switching
Cisco Networking Administration
Requirements
The CCNA (200-301) exam requires a fundamental understanding of networking concepts, including IP addressing, routing, switching, network security, and basic automation. For Packet Tracer labs, students should be able to configure and troubleshoot basic device settings (routers, switches), VLANs, inter-VLAN routing, static and dynamic routing protocols (RIP, OSPF, EIGRP), WAN technologies, network security features (ACLs, NAT), and some basic wireless configurations. Familiarity with network automation concepts and basic scripting can also be helpful, though it's not a primary focus. No formal prerequisites are required, but hands-on practice with labs is essential to grasp the exam topics.
Description
For students preparing for the CCNA (200-301) exam, a Packet Tracer lab should cover the key topics in the exam blueprint, allowing them to practice various networking concepts and configurations. A comprehensive lab should include the following key areas:1. Basic Network Device Configuration - Router and Switch Initial Configuration: - Basic device setup including hostname, IP addressing, and banner message. - Passwords for console, VTY lines, and privileged EXEC mode. - Assigning IP addresses to interfaces and enabling them. - Network Addressing: - Configuring IPv4 and IPv6 addresses on different devices. - Implementing subnetting (IPv4) and subnet planning. - Device management: - Configuring SSH and Telnet for remote access. - Using Secure Copy Protocol (SCP) or TFTP for backing up configurations.2. LAN Switching Configuration - VLAN Configuration: - Creating VLANs and assigning switchports to VLANs. - Configuring trunking between switches (802.1Q encapsulation). - Inter-VLAN routing using a router-on-a-stick or a Layer 3 switch. - Spanning Tree Protocol (STP): - Configuring and verifying STP and its variants (PVST, RSTP). - Setting the root bridge priority. - Port Security: - Configuring port security to restrict MAC addresses on switchports. - Violation modes (protect, restrict, shutdown). - EtherChannel Configuration: - Setting up EtherChannel for link aggregation using PAgP or LACP.3. Routing Configuration - Static Routing: - Configuring and verifying static routes, including default routes. - Dynamic Routing: - Implementing RIP, OSPF, and EIGRP for IPv4 and IPv6. - Configuring single-area and multi-area OSPF. - Configuring router redistribution between routing protocols. - First-Hop Redundancy Protocols (FHRP): - Implementing HSRP or VRRP for gateway redundancy.4. WAN Configuration - Configuring Point-to-Point Protocol (PPP): - Using PPP and PPPoE on WAN links. - GRE Tunnel Configuration: - Setting up a basic GRE tunnel for site-to-site communication. - Network Address Translation (NAT): - Configuring static NAT, dynamic NAT, and Port Address Translation (PAT).5. Security Features - Access Control Lists (ACLs): - Configuring standard and extended ACLs for traffic filtering. - Applying ACLs to interfaces to control access to resources. - VPN Configuration: - Configuring basic site-to-site VPN (IPsec) settings. - DHCP Snooping and Dynamic ARP Inspection (DAI): - Configuring switch features to protect against DHCP and ARP spoofing.6. Network Automation and Programmability (Basic) - Basic Device Automation using CLI: - Scripting basic configurations using TCL scripts. - Introduction to APIs: - Using REST API calls for network management tasks (optional).7. Wireless Configuration - Configuring a Wireless Router: - Basic SSID setup, wireless security settings (WPA2/3). - Configuring a WLAN Controller (if supported): - Setting up wireless access points via the controller interface.Suggested Lab Topologies - Simple Branch Office Network: A small network with routers, switches, and end devices to practice basic configurations. - Campus Network: Includes multiple VLANs, inter-VLAN routing, redundancy, and access controls. - WAN Connectivity Lab: Simulates connections between branch offices with different WAN technologies (PPP, GRE, NAT). - Data Center Topology: Includes EtherChannel, STP, and basic server configurations for a small-scale data center simulation.These labs will help students practice the concepts that are important for the CCNA certification and understand how different networking components integrate with each other.
Who this course is for
The CCNA certification is ideal for individuals starting a career in networking, such as aspiring network engineers, technicians, and IT professionals who want a foundational understanding of networking concepts. It's also beneficial for system administrators and other IT staff who need to manage or troubleshoot networked environments. Learning CCNA helps build essential skills in configuring, managing, and troubleshooting network devices, making it valuable for those looking to enhance their job prospects, advance in the IT field, or pursue higher-level certifications. It validates a core set of networking skills that are applicable across various roles and industries, making it a versatile and highly sought-after credential.
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