Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Evolution of PC_LANS and Networks - Andrew.cmu.edu
Document related concepts
Transcript
Network Designs and Cabling Organizational Communications and Technologies Prithvi N. Rao H. John Heinz III School of Public Policy and Management Carnegie Mellon University Readings Traditional Wide Area Networks(Stallings and van Slyke) Chapter 7 Local Area Networks (Stallings and van Slyke) Chapter 9 Objectives Identify the differences of centralized vs distributed computing Describe the three basic functions of any network List two network design principles Discuss the strengths of client/server network systems Objectives Discuss the strengths of peer-to-peer network systems Describe two different media plant specifications Token Ring Cabling Explosion of personal computers has changed the way organizations process information De-centralization created a number of problems for MIS managers Sharing of information more difficult Difficult to access corporate application files Difficult to access common peripheral devices Token Ring Cabling Centralized mainframes One central processing device Single file system Facility to control peripherals Single communications mechanism PC networks Many processing units Many file systems Many peripherals Many communications mecahism Stand-Alone Computers Printer Sales Data Billing Data Customer Service Data Planning Token Ring Cabling Result was localized processing or distributed processing Has both advantages and disadvantages over centralized processing Advantages of Distributed Processing Networks can be grown incrementally by adding additional workstations as needed Localized processing allows some users to run computationally intensive applications without affecting the performance of other users PC technology is widely known and well accepted Vast library of application software for PC systems Disadvantages of Distributed Processing Lack of central file storage systems to store commonly accessible data and application files Lack of communication facility to support sharing of peripherals Operating a PC may require more skill Employee skill level must increase Local Area Networks (LAN) LANs developed to restore lost functionality of centralized mainframes Allowed connection of independent desktop computers together LAN geographical range is small with reasonably high data rates of transfer Local Area Networks (LAN) LAN provides physical connection between independent computing devices LAN provides logical connection including Handshaking Flow control Error detection Local Area Networks (LAN) LANs offer benefits of sharing application data and peripherals among users Greatly reduced cost Incrementally expand network Three basic functions of any network File transfer Remote program execution Virtual terminal services Local Area Networks (LAN) All other network applications (peripheral sharing) can be accomplished using one of these three basic functions. Example: Shared printing is a file transfer operation to another computer where it is printed Token Ring File Server Shared printer Node Print Server Node Node Node Node LAN Design Principles Client – Server LANs define one computer as the master station or LAN Server and other computers are LAN clients Clients depend on server for services Central server contains Central file system Communication facility or NOS software Centralized authority to manage network LAN Strengths Central file system Communication can be efficiently managed by central server Server can act to police the network traffic of clients Client communication software is simple LAN Weaknesses Single point of failure: no server implies no network All communication must involve server Even local conversation between clients Network operating system may be overly complex Example of NOS is Novell Netware Peer-to-Peer Peer-to-peer networks treat all computers on network as equal peers All computers responsible for communication requirements of LAN All computers are masters and manage communication amongst workstations No single server to manage LAN Peer-to-Peer Shared printer Peer Host Host Shared disk storage Host Host Peer-to-Peer Strengths No single point of failure for communication on the network More flexibility for storing distributed data and sharing remote peripherals Availability of more application programming interfaces that facilitate development of networkbased distributed applications Peer-to-Peer Weaknesses Host software must be more self-sufficient requiring it to be more complex than client software Absence of central monitor to manage network communication Lack of authority mechanism to resolve contention issues that may arise during operation TCP/IP are an example of peer-to-peer networks Interface Requirements Each computer must contain a Network Interface Card (NIC) that physically attaches to the internal bus of the computer NICs come in different types, speeds and price ranges NICs handle the actual sending and receiving of data between computers that are communicating NIC Functions Physically attaching the computer to the network Framing the data for transmission as digital signals Decoding received signals and converting it back to data Error detection (usually with CRC) and retransmission NIC Configuration Items I/O address IRQ address DMA channel ROM and RAM addressing Configuration Issues: Problems and Solutions Problem right after installation of NIC card Solution is to reconfigure the IRQ to a different value NIC card failure IRQ conflict Software as well as hardware may need to be reconfigured Problem is lobe media failure Solution is to check cable and connectors and replace parts Configuration Issues: Problems and Solutions Problem Solution Node address is not unique Another NIC card on the LAN has the same address as your card. Replace the card for a different one from your vendor Problem Insufficient memory for NOS or application program to run Configuration Issues: Problems and Solutions Solution Problem Adjust drivers to use alternative memory (higher) DMA failure Some NIC cards do not support DMA Solution Reconfigure NIC to alternative DMA channel Disable DMA or disable memory cache addressing on NIC Configuration Issues:Problems and Solutions Problem Solution Hang’s up when accessing the server Bad driver or speed related problem Bad driver requires replacement from vendor software CD Place driver on a different place on disk Problem PC is running too fast for NIC Configuration Issues: Problems and Solutions Solution Problem Upgrade NIC Slow down PC by inserting wait-states inside CMOS setup Invalid path, No xxxx file found means that some configuration files cannot be found Solution Set up NOS software to point to the files Media Two types of media used in networking systems Bounded Bounded unbounded Signal is contained within bounds of media in the cable Unbounded Signal travels in the absence of a cable outside bounds of physical media Bounded Media Coaxial cable Twisted pair cable Fiber optic cable Unbounded Media Satellite transmission Infrared Radio Frequency Microwave Laser Twisted Pair Two kinds Shielded (STP) Unshielded (UTP) Twisted pair used to construct token ring LANs and 10Base-t (T for twisted pair) Connects terminals (STP) Voice communication and wiring telephone networks Least expensive and does not require special skills to instal Already exists mostly Twisted Pair Various grades of cable Level 1 used for telephone connections Level 5 used to support high speed LAN Fiber Optic Cable Profile Transmits light rather than electrical signals Little need to regenerate signal midway FDDI is one example (Fiber Distributed Data Interface) Token passing LAN protocol Popular for long distance carriers Advantage over traditional cabling that have much shorter distances of propagation before signal must be regenerated Large bandwidth so large movements of data possible Fiber Optic Cable Profile Advantages over traditional cabling Immune from crosstalk Immune from noise as a result of electro-magnetic interference (EMI) or radio frequency interference (RFI) Fiber is typically used as a backbone media connecting LANs together since the cost of the media and special skills to install it may prohibit its use to each workstation (for now) Coaxial Cable Two kinds Thick Thin Generally used to construct BUS Ethernet LAN ARCNET LAN Broadband LAN Coaxial cable can extend long distances and has a high level of immunity to electrical interference (thicknet more so than thinnet cable) Cable Plant Specifications Vendors provide specifications for layout of cable plant IBM cable plant AT&T premises distribution scheme Both use a HUB and SPOKE approach Hubs are placed in wiring closets Spokes branch out to each workstation Hubs are connected by a backbone Design Considerations Important to lay out wiring plan, install and test Can use a simulator to assist in prediction of behavior of network Existing cable layouts must be carefully examined to satisfy requirements due to cost of replacement Cost of materials is usually less than 10% of total Labor which can be 90% of total Might as well install expensive cable? Radio Frequency (RF) LAN Gaining popularity No need for expensive cable plant installation and maintenance Easier to modify, expand and dismantled RF technology uses different spectrum to microwave Cannot travel as far as microwave Particularly useful for LAN Wireless devices are getting more popular Unanswered issues regarding assignment of spectrum ranges, security and reliability of transmission Radio Frequency (RF) LAN Radio frequency Communications Controller Workstations with RF NICs Summary LANs follow two design principles Services include Clients or servers Equal peers File management Print and communications services Peer-to-peer can act as servers without being configured as such Media can be greatest expense and source of failure Summary Two media types available Bounded (twisted pair, coaxial cable, fiber optic cable) Unbounded (satellite, microwave, radio frequency)
