A network consists of a larger number of the communication devices like Routers, Repeaters, Hubs and Switches. A router works like a traffic light between the networks. Without routers there would be no Internet.
Today, IP is the main protocol in use on the Internet, as it is a routed protocol. A routing protocol specifies how routers communicate with one another. The routing protocol also specifies how routers in a network share information with each other and report changes. Some of the common routing protocols include IGRP, EIGRP, OSPF, IS-IS and BGP.
This course covers some basic topics in networking like routers, hubs, bridges, repeaters, routing concepts and protocols.
After completion of this course, students will get a clear view on Basics of switches, Hubs and Bridges, routing basic concepts, hierarchical routing and about some advanced routing concepts.

 

WHO SHOULD COMPLETE THIS COURSE?

• Networking Technicians
• Systems Engineers
• Computer science & Networking Engineers
• Telecommunication Engineers
• IT Engineers
• Process Engineers
• Electronics Engineers

 

COURSE OUTLINE

REPEATERS, HUBS & BRIDGES

• Allow the Network to Grow
• Repeaters: Physical Layer
• Hubs: Physical Layer
• Bridges: Link layer
• Bridge operation
• Transparent Bridge
• Store & forward bridge

 

SWITCHES

• Switches: Link layer/ Network layer
• Ethernet switches
• Micro segmentation
• Switches advantages/disadvantages
• Switch table
• Loops

 

SPANNING TREE PROTOCOL & VLAN

• Spanning tree protocol
• Bridge PDUs & ID
• Spanning tree port states
• Election of root switch/port
• Spanning tree address management 
• STP: Simulation (1)
• Virtual LAN (VLAN)
• Tagged VLAN
• IEEE 802.1 p/Q Header

 

ROUTING BASICS & PRINCIPLES

• Routing fundamentals
• Routing options
• Destination-based routing
• Routing components
• Routing table & algorithm
• Routing protocol
• Routing metrics

 

CLASSIFICATIONS OF ROUTING ALGORITHM 

• Classifications of routing algorithm
• Two methods of operation
• Static routing
• Three methods of dynamic routing
• Convergence

 

DYNAMIC ROUTING: DISTANCE-VECTOR

• Distance-vector algorithm
• Distance-vector routing
• Distance-vector: Simulation 1
• Distance-vector: Simulation 2
• Distance-vector: Simulation 3
• Distance-vector count to ∞
• Advantages/Disadvantages of distance vector

 

LINK STATE & HYBRIDIZED ROUTING

• Link-state routing
• Advantages/Disadvantages of Link-state routing
• Hybridized routing
• BGP routing

 

ROUTING PROTOCOLS: RIP

• Hierarchical routing
• IGP – EGP
• Origin of RIP
• RIP packet format
• RIP timers
• Routing database
• IP RIP 2 packet
• Limitations of RIP

 

ROUTING PROTOCOLS: IGRP & EIGRP

• Goals of IGRP
• Limitation of IGRP
• Metrics
• RIP and IGRP comparison
• Enhanced Interior Gateway Routing Protocol (EIGRP)
• EIGRP packet types, capabilities & attributes
• Routing techniques
• Routing concepts

 

ROUTING PROTOCOLS: OSPF

• OSPF characteristics
• OSPF areas
• OSPF features

 

ROUTING CONCEPTS: MPLS

• Multi-Protocol Label Switching (MPLS)
• WAN topologies
• MPLS principle
• MPLS characteristics
• Label switching with ATM
• MPLS label format

 

COMPONENTS OF MPLS

• MPLS components
• Control plane
• Label switch router
• Edge label switch router
• Label Information Base (LIB)
• Label Forwarding Instance Base (LFIB)
• Label distribution Protocol (LDP)

 

ADVANCED ROUTING CONCEPTS

• Internet Protocol Security – IPSec
• Access Control Lists (ACLs)
• Hierarchical routing
• Quality of Service
• MPLS QoS
• Multi-layer 2 protocols
• Protocol-Interdependent Multicast
• Redundant paths