Operating Systems - Network Management
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The document discusses different types of computer networks. It defines a computer network as connecting multiple computers together using data communication facilities. There are two main types of network operating systems: network operating systems which allow single-user systems to access remote resources, and distributed operating systems which provide unified access to resources across multiple systems. The document also discusses common network topologies like star, ring, bus, tree and hybrid along with their characteristics. Finally, it categorizes networks based on geographical reach into local area networks (LANs), metropolitan area networks (MANs), wide area networks (WANs) and wireless local area networks (WLANs).
Operating Systems - Network Management
- 2. When we hook up computers together using data communication facilities, we call this a computer network.
- 3. When we hook up computers together using data communication facilities, we call this a computer network.
- 4. When we hook up computers together using data communication facilities, we call this a computer network.
- 5. When we hook up computers together using data communication facilities, we call this a computer network.
- 6. When we hook up computers together using data communication facilities, we call this a computer network.
- 7. By creating a network computers get to share resources, CPU, memory, etc. There are two ways to configure operating systems to make them network enabled ◦ Network Operating System (NOS) ◦ Distributed Operating System (D/OS)
- 8. A Network Operating System (NOS) is for a single-user operating system. Users are aware of other resources and computer on the network, and can access them by logging into the appropriate remote host.
- 9. A Distributed Operating System (D/OS) is for a multi-user operating system. Users can access other resources and computer on the network in a unified way. Every resource is visible on every site.
- 10. Site Host Node
- 11. A Site is a specific location in a network containing two or more computer systems. A Host is a is a specific computer system in a site that provides services. A Node is the name assigned to the host to identify it to other computers.
- 13. We can hook up the network into a number of different shapes (or topologies). The most common shapes are: ◦ Star ◦ Ring ◦ Bus ◦ Tree ◦ Hybrid
- 14. There are advantages and disadvantages to each shape (or topology).
- 15. A star topology is also called a hub topology, or a centralized topology. A traditional approach to connecting devices where all transmitted data passed through a central controller.
- 19. This topology make routing very easy since the central controller is connected to all other hosts, and knows the path to all hosts.
- 24. The real issue with this is that the central controller must be highly reliable and be able to handle all the network traffic, no matter how busy.
- 25. A ring topology is one where all hosts are connected together in a closed loop.
- 29. Data is passed around in packets and typically is passed in one direction around the loop. The packet knows its Source and Destination hosts.
- 30. It will loop from the Source, around to the Destination host, which makes a copy of the packet, and the original packet continues the loop back to the Source.
- 33. A bus topology is one where all the sites are connected to a single communications line (or bus) running the length of the network.
- 37. Hosts can send data from one host to another via the bus, the message will usually be sent in both directions, and will keep travelling until they reach the End-Point Controllers. So if I want to send from Host 1 to Host 3.
- 41. Some bus topologies only allow the packets to travel in one direction until the reach the end-point controller, who can send it back in the opposite direction if the destination hasn’t received the packet yet.
- 45. A tree topology is a combination of bus topologies. The cables branch out, and there are no closed loops. The tree begins at a Head End Controllers and each branch terminates at an End Point Controller.
- 46. A tree topology is a combination of bus topologies. The cables branch out, and there are no closed loops. The tree begins at a Head End Controllers and each branch terminates at an End Point Controller.
- 47. A packet from one node to another will be sent down all branches, and will be absorbed by the End Point Controllers of the branches that does not contain the Destination host. Let’s do an example of going from Host 4 to Host 5.
- 53. A hybrid topology is one which combines any two of the previous topologies.
- 54. STAR + BUS
- 57. RING + BUS
- 60. Switch
- 61. STAR + RING
- 64. Switch
- 66. We can classify networks by the geographical distance they cover: ◦ Local Area Network (LAN) ◦ Metropolitan Area Network (MAN) ◦ Wide Area Network (WAN) ◦ Wireless Local Area Network (WLAN)
- 68. A Local Area Network (LAN) is a network within a single building or campus, e.g. an office, a college, or a warehouse. It is typically owned and used by a single organisation. Typically it’s a cluster of PCs or workstations. A LAN can be linked to larger networks via a bridge or gateway.
- 69. A Metropolitan Area Network (MAN) is a network that covers a full street, a neighbourhood, or even a city, as long as it doesn’t exceed a circumference of 100 kilometres. The MAN is often owned and run as a public utility, and are typically configured as a Ring Topology.
- 70. A Wide Area Network (WAN) is a network that a country, or connects countries. The WAN is often owned and run as a public utility, but telephone companies have WANs also. WANs can use anything for satellites to microwaves transmissions. The most common example of a WAN is the Internet, but there are other commercial WANs.
- 71. A Wireless Local Area Network (WLAN) is a wireless LAN. It works exactly the same as a normal LAN, but the technology means that the network uses a wireless protocol such as IEEE 802.11a, IEEE 802.11b, IEEE 802.11g, or IEEE 802.11n. Additionally 802.16 (the mobile WiMAX standard) is available.