1. Local Area Networks Honolulu Community College
4/26/2017
Local Area Networks
Honolulu Community College
Cisco Academy Training Center
Semester 1
Version 2.1.1

2. Overview Focus of this chapter is LAN devices. LANs:
4/26/2017
Overview
Focus of this chapter is LAN devices.
LANs:
high-speed, low-error data networks
cover a relatively small geographic area.
Evolution of networking devices.
How packets flow through each device and how it relates to the layers of the OSI model.
Basic steps in building LANs.
LANs provide devices (usually PCs) with access to high-bandwidth media.

3. Physical Topology Topology defines the structure of the network.
Physical topology is the actual layout of the wire (media).

4. Logical Topology
Logical topology is how the hosts communicate across the medium.
Two most common logical topologies are Broadcast and Token-passing.
Broadcast topology - each host sends its data to all other hosts on the network medium.
Ethernet is a broadcast topology.
Token-passing controls network access by passing an electronic token sequentially to each host.
Only host with token can send data on the network.

5. Can you identify
the topologies?

6. LAN Devices - Hosts
Hosts - devices that connect directly to a network segment.
Host devices are not part of any layer.
physical connection to the network media with NIC.
other OSI layer functions are performed in software inside the host.
they operate at all 7 layers of the OSI model, such as encapsulation/decapsulation, run applications, code, segment.

7. NIC - network interface card
Layer 2 (Data link) device of the OSI model.
Also called a network adapter.
Controls access to the media.
In general, you need a NIC that has a specific connector to match the network media.
Transceivers can be used to connect between two different connection types.

8. Media Layer 1 (Physical) components of LANs.
Carry the flow of information through a LAN.
This is the wiring or cabling.
Coax, UTP, STP, Fiber.
principal medium in networking is Category 5 unshielded twisted-pair cable (CAT 5 UTP).

9. Symbols for Media

10. Repeaters Layer 1 (physical) device.
Purpose is to regenerate and retime network signals at the bit level to allow them to travel a longer distance on the media.
Repeaters are single-port "in" and single-port "out" devices.

11. Hubs Are multi-port repeaters, layer 1 (physical) device.
Used to create a central connection point for the wiring media (also called concentrator).
Increases the reliability of the network.
Single wiring fault will not disrupt entire network.
Active vs Passive hubs.
Active - regenerates, retime the signal.
Passive - does not regenerate the signal.

12. Bridges
Layer 2 (data link) device designed to connect two LAN segments.
Purpose is to filter traffic based on MAC address.

13. Switches Switch functions like a multi-port bridge.
Layer 2 (data link) device that filters based on MAC addresses.
“Switch" data only out the port to which the proper host is connected.
Switches keeps a switching table with MAC addresses and ports, to perform switching.
Concentrates connectivity (creates a virtual connection between source and destination), making data transmission more efficient.

14. Routers Layer 3 (network) device
makes decision based on network addresses (logical addresses).
Purpose: (1) choose the best path for packets; and (2) switch them out to the proper port.
Can connect different network technologies, such as Ethernet, Token-ring, and FDDI.
The most important traffic-regulating devices on large networks, backbone of the Internet.
Function of routers: 1) path determination and 2) packet switching.

15. Cloud
Used to represent a collection of devices or networks, the details of which are unknown or not relevant.
Classified as a Layer 1-7 device.

16. Network Segment
A part of a network bounded by bridge, switch or router.

17. Evolution of Networking Devices
Apple computer in 1978, & IBM PC in 1981.
Early 1980’s - standalone computer use; why not connect them?
Repeaters -(device used by telephone networks) was introduced to enable computer data signals to travel farther.
Hubs - multi-port repeaters, enables sharing files, servers and peripherals (workgroup network).

18. Evolution of Networking Devices (cont.)
As workgroup networks grew, there were larger traffic jams. The bridge was invented to segment the network, to introduce some traffic control.
The best features of the hub (concentration or connectivity) and the bridge (segmentation) were combined to produce a switch.
In the mid-1980s, gateways (and then routers) were developed. These devices allowed the interconnection of separate LANs.

19. Exponential Growth of the Internet
Internetworks began in the ’s with the development of the router (gateway).
Cisco founded in 1984.
1990’s development of WWW (world wide web).

20. Networking Devices & OSI Layers
Transceivers, repeaters, and hubs - Layer 1 devices, because they act only on bits.
NICs - Layer 2 devices; location of the MAC address; but since they handle signaling and encoding they are also Layer 1 devices.

21. Networking Devices & OSI Layers (cont.)
Bridges & switches - layer 2 devices; use layer 2 (MAC) address to determine whether or not to forward packets.
Routers - Layer 3 devices; use Layer 3 (network) addresses to choose best paths and to switch packets to the proper route.

22. Networking Devices & OSI Layers (cont.)
Clouds, which may include routers, switches, servers, etc, involve Layers 1-7.
Routers
Bridges, Switches
Repeaters, Hubs

23. Data Encapsulation Example
Session layer
Transport layer
Network layer
Data link layer
Physical layer
Cloud

24. Packet Flow - Layer 1 Devices
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Packet Flow - Layer 1 Devices
Layer 1 devices - work with bits (e.g. voltage or light pulses), do not read headers.
Passive vs Active devices.
Passive - no amplification (regeneration).
plugs, connectors, jacks, patch panels, physical media.
Active - regenerates signal (requires power).
repeaters , hubs, transceivers.

25. Packet Flow - Layer 2 Devices
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Packet Flow - Layer 2 Devices
Layer 2 devices - NICs, bridges, & switches use Data-Link (MAC) address information, i.e. they read the frame header.
Bridges checks MAC address of incoming frames.
If MAC address is local (on the same segment as the incoming port), frame is not forwarded.
If MAC address is non-local (not on the same segment as incoming port), frame is forwarded.
Switches are like multi-port bridges.

26. Packet Flow - Layer 3 Devices
4/26/2017
Packet Flow - Layer 3 Devices
Layer 3 device - routers switch packets based on layer 3 network addresses.
Routers perform best path selection and actual switching to the proper output port.
After the proper port has been selected, the router encapsulates the packet in a frame again to send the packet to its next destination.

27. Packet Flow - Layer 1-7 Devices
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Packet Flow - Layer 1-7 Devices
Some devices (e.g. your PC) are Layer 1-7 devices, they perform processes that can be associated with every layer of the OSI model.
Encapsulation and decapsulation are two examples of this.
A gateway (essentially a computer which converts information from one protocol to another) is also a Layer 1-7 device.
Clouds (may contain several kinds of media, NICs, switches, bridges, routers, gateways and other networking devices) operate at all levels of the OSI model, and is a Layer 1-7 device.

28. Summary
LAN devices, e.g. routers, switches, bridges, hubs and repeaters.
How data flows in a network, data encapsulation.
Two addresses - MAC and IP.
Basics of building LANs - topologies, devices, connections, etc.

29. The End