CCNA Training – Commonly Asked Questions
The Cisco certified network associate (CCNA) certification is one of the most popular certifications and is an absolute essential for candidates who want to get into the field of networking. This course will primarily focus on various concepts associated with IP addressing and WAN technologies. By completing this course, candidates will become comfortable working with essential things like installing, troubleshooting and planning of networks.
What are the prerequisites for this training?
The candidates who want to specialize in this must have a basic idea about the various networking technologies. A basic understanding of the concepts associated with TCP/IP is also mandatory.
What are the benefits of getting trained in this course?
CCNA certifications are highly regarded by several organizations. This will not only help budding professionals to become networking engineers but will also provide a platform with lucrative opportunities. Studies say that CCNA experts earn more than candidates with other specializations.
Who is this course best suited for?
There are several organizations which are actively seeking CCNA experts. The course is best suited for professionals working as network consultants, network admin, software developers, network engineers, and specialists. This course is also ideal for entry-level engineers who want to grow in the networking field.
What is the duration of this course?
The duration of this course is as a follows:
- Regular Training: 45 days (Monday to Friday)
- Weekend Training: 15 weekends (Saturday, Sunday and Holiday)
- Fast Track Training: Less than 20 days (Daily 5+ hour classes)
What are objectives and learning outcomes of this course?
The objectives of this course are as follows:
- Learning how to manage and optimize network systems
- Understanding the infrastructure.
- Learning about concepts such a routing, switching, and connectivity
- Developing skills required for managing CISCO internetwork devices
- Learning how to install and troubleshooting network routers and switches.
- In-depth knowledge associated with various key concepts in networking such as spanning tree protocol and ether channel.
- Learning about technologies such as IoE, IoT, IWAN and SDN and its effect on networks
IP Data Networks
- Introduction to routers
- The function of routers
- What are switches
- Hubs and bridges
- TCP/IP Model
- What is Data Flow
- Data flow between two hosts in a network
Switching Technologies for a LAN
- Introduction to switching technologies
- Basic switching concepts
- Switching collision types
- Types of Broadcast
- CAM Table
- Initial switch configuration
- Configuring switch configuration
- Introduction to Switch Operation
- Enhanced Switching technologies
- Ether Channel Types (RSTP and PVSTP)
- Verifying VLANs and configuring it
- Configuring of PVSTP operation
- CEF Packet Forwarding
- Lookup process
- Booting in Cisco IOS Router
- Router Configuration
- Interface verification - Serial & Ethernet
- Static and default routing
- Learning to manage CISCO files
- Boot Preferences
- Routing and routing protocols
- Static and dynamic link state
- Vector Administrative distance
- Single Area Neighbor Adjacencies
- OSPF state
- Passive interface
- Administrative distance
- Feasibility condition
- Router ID for metric composition
- Path selection and Load Balancing
- Encapsulation of Sub Interfaces
Services for IP
- DHCP configuration
- Verification of DHCP
- Options for DHCP
- Addresses Excluded
- Standard Extended Names
- ACL configuration and verification
- Source addressing overloading
- Syslog verification
- Configuring Syslog
- High Availability recognition for FHRP, VRRP, HSRP and GLBP)