Hardware & Network Engineer

Course Duration: 8 Months
Eligibility: 10/10+2/Graduate
Course Fees: 45,000/-
CloudNet Sponsor: 15, 001/-
Student Fees: INR 29,999/-

[33% course fee sponsored by CloudNet Institute of Information Technology (P) Limited]

Course Details



Computer Fundamental
Hardware A+
Networking N+
CCNA – Routing & Switching

Technomerit Certified Hardware & Network Engineer is the foundation of your IT career

  • To install & assemble hardware peripheral & components.
  • To install, configure & manage different operating system.
  • Candidates are better prepared to troubleshoot and problem solve.
  • Technicians understand a wide variety of issues ranging from networking and operating systems to mobile devices and security.
  • A+ supports the ability to connect users to the data they need to do their jobs regardless of the devices being used.
  • To install & configure network peripheral, components and devices.
  • To Install and Configure WiFi Access Point, Switch and Router.
  • To Install and Configure Broadband and Leased line.

About course high light in Techno Merit Kolkata

  • Learning Hardware & Networking Engineering course in Kolkata is foundation of your IT Career.
  • Our all course design based on latest global course curriculum in Kolkata.
  • Techno Merit all instructor are certified and you will get ready for industry to learn IT Hardware Networking & Server course in Kolkata.
  • Techno Merit is one of the best IT Hardware Networking Institute in Kolkata.
  • To learning Hardware A+, Networking N+, CCNA – Routing & Switching course in Techno Merit Kolkata it will also come with 100% assured job support.
  • You will get 3 years dedicated placement support and life time e-placement support.
  • Hardware & Network Engineer course in Techno Merit will also offer you, life time elearning solution support that will great to you to learn anywhere, any time.

Certification Preparation by this course:

Computer Fundamental (Course Objective)

  • Introduction to Computer
  • Computer Hardware, Software and Firmware
  • Explain to INPUT, OUTPUT and Process Devices
  • Computer Operating System
  • Describe common application
  • Internet and utility
  • Summary

Hardware A+ (Course Objective)

  • Introduction to Computer
  • Explain to Number System
  • Describe & Given a scenario to simulated test to Logic Gates
  • Describe to the Motherboard
  • Explain the purposes and uses of various peripheral types
  • Describe & explain Firmware
  • Describe & explain BIOS and UEFI
  • Configure BIOS and UEFI
  • Describe & Given a scenario to ROM and FLASH Memory
  • Describe & Given a scenario to RAM
  • Describe & Given a scenario to Microprocessor
  • Describe & Given a scenario to Hard Disk Drive
  • Describe & Given a scenario to SSD
  • Describe & Given a scenario to CD, DVD, Blue Ray
  • Describe & Given a scenario to Display Unit
  • Given a scenario, install and configure laptop hardware and components.
  • Given a scenario within the display of a laptop.
  • Given a scenario, use appropriate laptop features
  • Compare and contrast characteristics of various types of other mobile devices.
  • Summarize power supply types and features
  • Given a scenario, install and configure Motherboard, CPU, RAM, HDD, and SMPS to assemble a PC.
  • Given a scenario, install and maintain various print technologies
  • Compare and contrast common operating system types and their purposes.
  • Compare and contrast features of Microsoft Windows versions.
  • Summarize general OS installation considerations and upgrade methods.
  • Install and Configure Device Drivers
  • Given a scenario, use appropriate Microsoft command line tools.
  • Given a scenario, use Microsoft operating system features and tools.
  • Given a scenario, use Microsoft Windows Control Panel utilities
  • Summarize application installation and configuration concepts
  • Given a scenario, configure Microsoft Windows networking on a client/desktop
  • Given a scenario, use features and tools of the Mac OS and Linux client/desktop operating systems.
  • Compare and contrast TCP and UDP ports, protocols, and their purposes.
  • Compare and contrast common networking hardware devices.
  • Given a scenario, install and configure a basic wired/wireless SOHO network.
  • Compare and contrast wireless networking protocols
  • Summarize the properties and purposes of services provided by networked hosts.
  • Explain common network configuration concepts
  • Compare and contrast Internet connection types, network types, and their features.
  • Given a scenario, use appropriate networking tools.
  • Compare and contrast cloud computing concepts.
  • Given a scenario, set up and configure client-side virtualization
  • Given a scenario, use the best practice methodology to resolve problems.
  • Given a scenario, troubleshoot Common Hardware, Software, and Networking Problem.

Networking N+ (Course Objective)

  • Introduction to Networking
  • Explain the purposes and uses of ports and protocols.
  • Explain devices, applications, protocols and services at their appropriate OSI layers.
  • Explain the concepts and characteristics of routing and switching.
  • Given a scenario, configure the appropriate IP addressing components.
  • Compare and contrast the characteristics of network topologies, types and technologies.
  • Given a scenario, implement the appropriate wireless technologies and configurations.
  • Summarize cloud concepts and their purposes.
  • Explain the functions of network services.
  • Given a scenario, deploy the appropriate cabling solution.
  • Given a scenario, determine the appropriate placement of networking devices on a network and install/configure them.
  • Explain the purposes and use cases for advanced networking devices.
  • Explain the purposes of virtualization and network storage technologies.
  • Compare and contrast WAN technologies.
  • Given a scenario, use appropriate documentation and diagrams to manage the network.
  • Compare and contrast business continuity and disaster recovery concepts.
  • Explain common scanning, monitoring and patching processes and summarize their expected outputs.
  • Given a scenario, use remote access methods.
  • Identify policies and best practices.
  • Summarize the purposes of physical security devices.
  • Explain authentication and access controls.
  • Given a scenario, secure a basic wireless network.
  • Summarize common networking attacks.
  • Given a scenario, implement network device hardening.
  • Explain common mitigation techniques and their purposes.
  • Explain the network troubleshooting methodology.
  • Given a scenario, use the appropriate tool.
  • Given a scenario, troubleshoot common wired connectivity and performance issues.
  • Given a scenario, troubleshoot common wireless connectivity and performance issues.
  • Given a scenario, troubleshoot common network service issues.

CCNA – Routing & Switching (Course Objective)

Building a Simple Network

  • Exploring the Functions of Networking
  • Understanding the Host-to-Host Communications Model
  • Introducing LANs
  • Operating Cisco IOS® Software
  • Starting a Switch
  • Understanding Ethernet and Switch Operation
  • Troubleshooting Common Switch Media Issues

Establishing Internet Connectivity

  • Understanding the TCP/IP Internet Layer
  • Understanding IP Addressing and Subnets
  • Understanding the TCP/IP Transport Layer
  • Exploring the Functions of Routing
  • Configuring a Cisco Router
  • Exploring the Packet Delivery Process
  • Enabling Static Routing
  • Learning Basics of Access Control Lists (ACLs)
  • Enabling Internet Connectivity

Summary Challenge

  • Establish Internet Connectivity
  • Troubleshoot Internet Connectivity

Implementing Scalable Medium-Sized Networks

  • Implementing and Troubleshooting VLANs and Trunks
  • Building Redundant Switched Topologies
  • Improving Redundant Switched Topologies with EtherChannel
  • Routing Between VLANs
  • Using a Cisco IOS Network Device as a Dynamic Host Configuration Protocol (DHCP) Server
  • Understanding Layer 3 Redundancy
  • Implementing Routing Information Protocol (RIP) v2

Introducing IPv4 and IPv6

  • Introducing Basic IPv4
  • IPv4 Subnet (FLSM, VLSM)
  • Introducing Basic IPv6
  • Understanding IPv6 Operation
  • Configuring IPv6 Static Routes

Troubleshooting Basic Connectivity

  • Troubleshooting IPv4 Network Connectivity
  • Troubleshooting IPv6 Network Connectivity

Implementing Network Device Security

  • Securing Administrative Access
  • Implementing Device Hardening
  • Implementing Advanced Security

Implementing an EIGRP-Based Solution

  • Implementing EIGRP
  • Implementing EIGRP for IPv6
  • Troubleshooting EIGRP

Summary Challenge

  • Troubleshooting a Medium-Sized Network
  • Troubleshooting a Scalable Medium-Sized Network

Implement a Scalable OSPF-Based Solution

  • Understanding OSPF
  • Implementing Multiarea OSPF IPv4
  • Implementing OSPFv3 for IPv6
  • Troubleshooting Multiarea OSPF

Implementing Wide Area Networks

  • Understanding WAN Technologies
  • Understanding Point-to-Point Protocols
  • Configuring Generic Routing Encapsulation (GRE) Tunnels
  • Configuring Single-Homed External Border Gateway Protocol (EBGP)

Network Device Management

  • Implementing Basic Network Device Management
  • Learning About the Evolution of Intelligent Networks
  • Introducing QoS
  • Managing Cisco Devices
  • Licensing

Summary Challenge

  • Troubleshooting Scalable Multiarea Network
  • Implementing and Troubleshooting Scalable Multiarea Network
FOR MORE INFORMATION Interested to join this Course? CONTACT NOW CALL NOW : +91 98316 97980