The Students will be able
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The architecture, structure, functions, components, and models of the Internet and other computer networks. It uses the OSI and TCP layered models to examine the nature, roles of protocols and services at the application, network, data link, and physical layers. |
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The principles and structure of IP addressing and fundamentals of Ethernet concepts, media, and operations are introduced to provide a foundation for the curriculum. Labs use a “model Internet” to allow students to analyze real data without affecting production networks. |
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Packet Tracer (PT) activities help students analyze protocol and network operation and build small networks in a simulated environment. |
The students will be able to
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Build simple LANs, perform basic configurations for routers, switches, and implement IP addressing schemes. |
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Configure and troubleshoot routers, switches and resolve common VLAN routing issues in both IPv4 and IPv6 networks. |
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Configure WAN technologies and network services required by converged applications in a complex network. |
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Acquire the knowledge to use simulation tool to design an enterprise network and evaluate design alternatives. |
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Finish a design of an enterprise network to support applications such as electronic mails, centralised database access, and client-server applications. |
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Address various issues such as IP addresses assignment, choice of internetworking equipment and network performance will be considered in the network design. |
Mohamed Sathak A J College of Engineering has partnered with CISCO, the world leaders in networking to establish
the Networking Academy(NetAcad).
Cisco Networking Academy is an IT skills and career building program which provides
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Unique hands-on learning experience in the latest networking, security, and cloud technologies using simulation tools |
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Professional certification recognized by employers worldwide |
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Career pathways to connect to an estimated eight million networking jobs around the world through Netacad |
Courses Offered:
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Network Essentials |
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Mobility Fundamentals |
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CCNA: Introduction to Networks |
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CCNA: Switching, Routing, and Wireless Essentials |
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CCNA: Enterprise Networking, Security and Automation OR Networking Courses |
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Security Courses |
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IoT & Data Analytics Courses |
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OS and IT Courses |
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Programming Courses |
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Entrepreneurship |
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CISCO Certified Network Associate |
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Implementing CISCO Enterprise Network Core Technologies |
CCNAv7 - Introduction to Networks
1. Networking Today (3 Hours)
Networks Affect Our Lives-Network Components - Network Representations and Topologies - Common Types of Networks - Internet Connections - Reliable Networks - Network Trends - Network Security - The IT Professional
2. Basic Switch and End Device Configuration (5 Hours)
Cisco IOS Access IOS Navigation - The Command Structure - Basic Device Configuration - Save Configurations - Ports and Addresses - Configure IP Addressing - Verify Connectivity
3. Protocol and Models (3 Hours)
The Rules – Protocols Suites - Standards Organizations - Reference Models - Data Encapsulation - Data Access
4. Physical Layer (3 Hours)
Purpose of the Physical Layer - Physical Layer Characteristics - Copper Cabling - UTP Cabling- Fiber-Optic Cabling - Wireless Media
5. Number Systems (1 Hours)
Binary Number System - Hexadecimal Number System
6. Data Link Layer (3 Hours)
Purpose of the Data Link Layer – Topologies - Data Link Frame
7. Ethernet Switching (4 Hours)
Ethernet Frame - Ethernet MAC Address - The MAC Address Table - Switch Speeds and Forwarding Methods
8. Network Layer (5 Hours)
Network Layer Characteristics - IPv4 & IPv6 Packet – Router Routing Table
9. Address Resolution (3 Hours)
MAC and IP - ARP - Neighbor Discover
10. Basic Router Configuration (6 Hours)
Configure Initial Router Settings - Configure Interfaces - Configure the Default Gateway
11. IPv4 Addressing (6 Hours)
IPv4 Address Structure - IPv4 Unicast, Broadcast, and Multicast - Types of IPv4 Addresses - Network Segmentation - Subnet an IPv4 Network - Subnet a /16 and /8 Prefix - Subnet to Meet Requirements - Variable Length Subnet Masking - Structured Design
12. IPv6 Addressing (4 Hours)
IPv6 Addressing - IPv6 Address Types - GUA and LLA Static Configuration - Dynamic Addressing for IPv6 GUAs - Dynamic Addressing for IPv6 LLAs - IPv6 Multicast Addresses - Subnet an IPv6 Network
13. ICMP (3 Hours)
ICMP Messages - Ping and Traceroute Testing
14. Transport Layer (5 Hours)
Transportation of Data - TCP Overview - UDP Overview - Port Numbers - TCP Communication Process - Reliability and Flow Control - UDP Communication
15. Application Layer (5 Hours)
Application, Presentation, and Session - Peer-to-Peer - Web and Email Protocols - IP Addressing Services - File Sharing Services
16. Network Security Fundamentals (5 Hours)
Security Threats and Vulnerabilities - Network Attacks - Network Attack Mitigation - Device Security
17. Build a Small Network (6 Hours)
Devices in a Small Network- Small Network Applications and Protocols - Scale to Larger Networks - Verify Connectivity - Host and IOS Commands - Troubleshooting Methodologies - Troubleshooting Scenarios
*Labs |
24 hands-on and paper-based labs. Using Packet Tracer Tool. It also uses Cisco 4221 routers and 2960 switches |
Total Hours :70
Source : CISCO Networking Academy