Computer Networks

1. Computer Networks

2. Computer Network A computer network is defined as the interconnection of 2 or more independent computers or/and peripherals.

3. Network Source Destination

4. Need of Networks • Communicate and collaborate • Share information • Share resources • Sharing computer files and disk space • Sharing high-quality printers • Access to common fax machines • Access to common modems • Multiple access to the Internet

5. Classification of Networks • Local Area Networks (LANs) - a computer network covering a small geographic area, like a home, office, or group of buildings. Typically within 5-mile radius. • Metropolitan Area Networks (MANs)- are large computer networks usually spanning a city. (within 30 miles) • Wide-Area Networks (WANs) - any network whose communications links cross metropolitan, regional, or national boundaries.

6. Network Topology The way in which the computers are interconnected together is known as TOPOLOGY.

7. Types of topologies • Physical topology • Logical topology

8. Types of physical topologies • Bus/Linear • Star • Ring • Tree • Mesh

9. Linear or bus topology • Consists of a main cable, known as backbone cable, with a terminator at each end . • All nodes (file server, workstations, and peripherals) are connected to the cable. • Ethernet and LocalTalk networks use bus topology.

11. Advantages of Bus Topology • Easy to connect a computer or peripheral to a linear bus. • Requires less cable length. • Easy to extend. • If one node of the N/W is faulty, the N/W can still remain working.

12. Disadvantages of Bus Topology • Entire network shuts down if there is a break in the main cable. • Terminators are required at both ends of the backbone cable. • Difficult to identify the problem if the entire network shuts down. • Not meant to be used as a stand-alone solution in a large building.

13. Star topology • A star topology is designed with each node (file server, workstations, and peripherals) connected directly to a central network hub. • Data on a star network passes through the hub before continuing to its destination. • The hub manages and controls all functions of the network. • It also acts as a repeater for the data flow.

15. Advantages of Star Topology • Easy to install. • No disruptions to the network other than connecting or removing devices. • Easy to detect faults and to remove parts.

16. Disadvantages of Star Topology • Requires more cable length than a bus topology. • If the hub fails, nodes attached are disabled. • More expensive than bus topology because of the cost of the hub.

17. Tree Topology • A tree topology combines characteristics of bus and star topologies. • It consists of groups of star-configured workstations connected to a bus backbone cable. • Tree topologies allow for the expansion of an existing network.

19. Advantages of a Tree Topology • Point-to-point wiring for individual segments. • Supported by several hardware and software venders.

20. Disadvantages of Tree Topology • Overall length of each segment is limited by the type of cabling used. • If the backbone line breaks, the entire segment goes down. • More difficult to configure than other topologies.

21. Ring topology • Is a type of computer network configuration where each network computer and device are connect to each other forming A large circle. • Data is divided into packets when transmitted. • Packet is sent around the ring until it reaches its final destination.

23. Advantages of ring topology • Requires lesser amount of cable and there are not much of installation problems • All stations have equal access

24. Disadvantages of ring topology • Failure of one computer may impact others • Data transfer is slow

25. Mesh topology • It requires that every terminal should be attached to each other. • All the computers must have adequate number of interfaces for the connections to be made. • Because of this requirement the installations is somewhat difficult. • The length of cable required is quite higher as compared to other topologies.

27. Advantages of mesh topology • Ease of troubleshooting. • Data transfer is faster.

28. Disadvantages of mesh topology • uses a lot of cabling.  • Complex • Most expensive topology

29. Considerations When Choosing a Topology • Money. A linear bus network may be the least expensive way to install a network; you do not have to purchase concentrators. • Length of cable needed. The linear bus network uses shorter lengths of cable. • Future growth. With a star topology, expanding a network is easily done by adding another concentrator. • Cable type. The most common cable in schools is unshielded twisted pair, which is most often used with star topologies.

30. Transmission Technology Two types of transmission technologies are there: • Broadcast Network Single communication channel is shared by all the machines in the network.

31. Transmission Technology • Point to Point Network Data is routed directly from source machine to destination machine directly. Dedicated link

32. Routing • When data is to be transmitted between two remote machines using intermediate machines, certain routing techniques have to be applied. • The intermediate machines may be: • Gateway • Hub • Router • Repeater • Bridge

33. Gateway • A gateway is a network point that acts as an entrance to another network. • Acts as a bridge between two networks so that data can be transferred between a number of computers. • In enterprises, the gateway is the computer that routes the traffic from a workstation to the outside network that is serving the Web pages. • In homes, the gateway is the ISP that connects the user to the internet. • For example, when you send an e-mail to a friend or when you log in to a Web site, there is a gateway that allows the connection take place.

34. Hub • A common connection point for devices in a network. • Hubs are commonly used to connect segments of a LAN. • A hub contains multiple ports. • When a packet arrives at one port, it is copied to the other ports so that all segments of the LAN can see all packets

35. Router • A router is a device that forwards data packets along networks. • A router is connected to at least two networks. • Routers are located at gateways. • Routers use headers and forwarding tables to determine the best path for forwarding the packets. • They use protocols to communicate with each other and configure the best route between any two hosts.

36. Switch • In networks, a device that filters and forwards packets between LAN segments. • LANs that use switches to join segments are called switched LANs.

37. Repeater • Repeaters are used in transmission systems to regenerate signals distorted by transmission loss. • Analog repeaters frequently can only amplify the signal while digital repeaters can reconstruct a signal to near its original quality.

38. Bridge • A device that connects two local-area networks (LANs), or two segments of the same LAN that use the sameprotocol is known as bridge.

39. More Concepts… • Network protocols. • Routing Technology.

40. Network Protocols • A communication protocol is a set of rules that specify the format and meaning of messages exchanged between computers across a network. • A set of related protocols that are designed for compatibility are called protocol suite.

41. Routing Technologies • Computer Networks may use the following routing technologies: • Circuit Switching • Packet Switching • Message Switching

42. Circuit Switching • A physical circuit is established between two machines. • Once the connection is established, the data transfer takes place and then the connection is released. • The data transfer rate is high but error prone.

43. Packet Switching • Data is divided into small, fixed size packets. • Each packet contains the address of destination. • All the intermediate machines inspect the address and route it to the right machine. • If any packet is missing, the destination machine can request the source machine to retransmit it.

44. Message Switching • Message as a whole is transmitted. • Each message contains the address of the destination. • Message switching N/W is “Store and Forward” N/W. • Once the message arrives at the intermediate machine, it is stored in it completely and transmitted when the line is free.

45. Test 1 • This will be done on 21st November 2012 at 1200-1300