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Instructor & Todd Lammle

Explore key concepts such as Layered Models, MAC Addressing, and Collision Detection in networking. Learn about Ethernet cabling, router functions, and interconnection devices for efficient communication. Enhance your understanding of internetworking principles with practical labs and review questions.

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Instructor & Todd Lammle

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  1. Instructor & Todd Lammle Sybex CCNA 640-802 Chapter 1: Internetworking

  2. Chapter 1 Objectives • The CCNA Topics Covered in this chapter include: • Internetworking Basics • Layered Models • The OSI Model • Ethernet Networking • Data Encapsulation • Cisco’s Three-Layer Model • Chapter 1 Written Labs and Review Questions 2

  3. Internetworking Basics How would you say the PC named Bob communicates with the PC named Sally? 3

  4. Internetworking Basics Switches can replace the hub, breaking up collision domains. Keep in mind that the hub used in the figure just extended the one collision domain from the switch port. 4

  5. Internetworking Basics • Here’s a list of some of the things that commonly cause LAN traffic congestion: • Too many hosts in a broadcast domain • Broadcast storms • Multicasting • Low bandwidth • Adding hubs for connectivity to the network • A bunch of ARP or IPX traffic (IPX is a Novell protocol that is like IP, but really, really chatty. Typically not used in today’s networks.) 5

  6. Internetworking Basics Routers create an internetwork. 6

  7. Internetworking Basics • There are two advantages of using routers in your network: • They don’t forward broadcasts by default. • They can filter the network based on layer 3 (Network layer) information (e.g., IP address). • Four router functions in your network can be listed as follows: • Packet switching • Packet filtering • Internetwork communication • Path selection 7

  8. Internetworking Basics Internetworking devices 8

  9. Internetworking Basics Switched networks creating an internetwork 9

  10. Layered Models The Layered Approach • A reference model is a conceptual blueprint of how communications should take place. • It addresses all the processes required for effective communication and divides these processes into logical groupings called layers. • When a communication system is designed in this manner, it’s known as layered architecture. 10

  11. The OSI Model • The OSI isn’t a physical model. Rather, it’s a set of guidelines that application developers can use to create and implement applications that run on a network. • It also provides a framework for creating and implementing networking standards, devices, and internetworking schemes. 11

  12. The OSI Model The upper layers 12

  13. The OSI Model The lower layers 13

  14. The OSI Model The Layer Functions 14

  15. The OSI Model Connection-Oriented Communication 15

  16. The OSI Model Windowing 16

  17. The OSI Model Network Layer Routing Table used in a router 17

  18. The OSI Model Router in an internetwork 18

  19. The OSI Model Data Link Layer 19

  20. Binary Addressing Binary to Decimal Memorization Chart 10000000 128 11000000 192 11100000 224 11110000 240 11111000 248 11111100 252 11111110 254 11111111 255 Conversion Example 20

  21. The OSI Model A hub in an network 21

  22. The OSI Model A Switch in an network 22

  23. Ethernet Networking • Ethernet is a contention media access method that allows all hosts on a network to share the same bandwidth of a link. • Ethernet is popular because it’s readily scalable, meaning that it’s comparatively easy to integrate new technologies, such as Fast Ethernet and Gigabit Ethernet, into an existing network infrastructure. • It’s also relatively simple to implement in the first place, and with it, troubleshooting is reasonably straightforward. 23

  24. Ethernet Collision Detection CSMA/CD 24

  25. Half and Full Duplex Half-duplex Ethernet is defined in the original 802.3 Ethernet; Cisco says it uses only one wire pair with a digital signal running in both directions on the wire. But full-duplex Ethernet uses two pairs of wires instead of one wire pair like half duplex. And full duplex uses a point-to-point connection between the transmitter of the transmitting device and the receiver of the receiving device. • Full-duplex Ethernet can be used in three situations: • With a connection from a switch to a host • With a connection from a switch to a switch • With a connection from a host to a host using a crossover cable 25

  26. Ethernet Addressing The MAC, or hardware, address is a 48-bit (6-byte) address written in a hexadecimal format. 26

  27. Ethernet at the Physical Layer The IEEE 802.3 and original Ethernet Physical layer specifications. 27

  28. Ethernet Cabling • Ethernet cabling is an important discussion, especially if you are planning on taking the Cisco exams. • Three types of Ethernet cables are available: • Straight-through cable • Crossover cable • Rolled cable • We will look at each in the following sections. 28

  29. Straight Through • The straight-through cable is used to connect • Host to switch or hub • Router to switch or hub 29

  30. Crossover Cable • The crossover cable can be used to connect • Switch to switch • Hub to hub • Host to host • Hub to switch • Router direct to host 30

  31. Rolled Cable Although rolled cable isn’t used to connect any Ethernet connections together, you can use a rolled Ethernet cable to connect a host to a router console serial communication (com) port. 31

  32. Using Hyper Terminal Notice the settings for Hyper Terminal 32

  33. What type of cable is used? 33

  34. What type of cable is used for each connection? 34

  35. Data Encapsulation When a host transmits data across a network to another device, the data goes through encapsulation: • It is wrapped with protocol information at each layer of the OSI model. • Each layer communicates only with its peer layer on the receiving device. 35

  36. PDU 36

  37. Port Numbers The Transport layer uses port numbers to define both the virtual circuit and the upper-layer process. 37

  38. Cisco’s Three-Layer Model • The following are the three layers and their typical functions: • The core layer: backbone, transport data reliably and quickly. • The distribution layer: routing, filtering, WAN access. • The access layer: switching, separating collision domains. 38

  39. Hub Hub Review Question How many broadcast domains are shown? 39

  40. Review Question Switch Switch Hub Hub Hub Hub Hub Hub How many collision domains are shown? 40

  41. Which of the hosts can transmit simultaneously without causing collisions? Switch Hub A D F B C E How many collision and broadcast domains are show? 41

  42. Written Labs and Review Questions • Open your books and go through all the written labs and the review questions. • Review the answers in class. 42

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