Miscellaneous Network Info Brief history, WANs, LANs Examples Issues Cabling
WAN – Wide Area Network Connect geographically separate networks ATM has played an important part in WAN (not LAN) WAN LAN
WANs started with telephone (analog) lines. Needed to send digital data over analog lines. Wanted to use digital lines (e.g. FR, ATM) instead. A B Digital lines Analog lines Modem
LANs were serial until 1984 or so. Wiring was a big problem! VAX 36/64/128 serial ports (local or dial)
There were many network protocols e.g. Appletalk, IPX, Decnet, OSI, SNA, IP Routers were needed to route each of these Now, it’s pretty much an IP world
Why doesn’t ATM play a role in the LAN? About 8 years ago ATM looked good, scalable (T1, T2, T3) Every frame 53 byte cell size so HW could be simple Had QOS feature built into the protocol Current Ethernet switches would’ve been ATM switches BUT Ethernet kept ramping up, had an installed base, and was simple
LAN Technology Battles IEEE or ethernet (DEC, Xerox, Intel) IEEE token bus (General Motors) IEEE token ring (IBM) Issues: Random access vs. deterministic approach Installation Hardware and cabling Applications and protocols
Ethernet won Many hadn’t thought it would scale, but it did. To extend ethernet geographically, needed a bridge. Spanning tree algorithm was major development.
Cabling System IBM started building structured cabling plants. Devised a better copper cable so got reasonable distance for digital info. CAT 5 was a major innovation - at every jack guaranteed to work to 300 ft (100 m). Future is fiber optic (cost still high).
Example: Network with Collapsed Backbone Traffic Collapses to the Core Example: Core is ATM (OC3) Each floor in each building has a switch … To building floor … … OC3
Collapsed Backbone is where routing is Could build in redundancy by putting routers in buildings in case the backbone has a problem
Example: To the Buildings… Optical fiber runs from backbone router to building (in conduits) Optical fiber runs between floors in building Point of presence on each floor From wiring closet on the floor, Category 5 (100Mbps) or Category 6 (1 Gbps), keep lengths to 50 m just to be safe Ethernet used
Used to do this… Bridge
Now can do this… Spanning tree is in silicon. Every port has spanning tree running on it. Others don’t see conversation between ports. In switched ethernet, every port is its own ethernet. 10BaseT – 10 Mbps
VLANs Virtual LANs, VLANs, were important in switches Not physically connected as a LAN. HW can be programmed so each port belongs to a VLAN (All belong to the same collision domain) So all on VLAN see the ethernet packet.
Convergence Digitize all info & attach to a spigot so data, voice, video are carried together Ethernet best effort service caused doubt 8 years or so ago
Private Branch Exchange Companies, enterprises use PBX for internal phone service PBX is a circuit switch Digital Doesn’t go through telephone net Phone line to PBX not very demanding (not like a data connection) Highly reliable
Hosted/Virtual PBX now available IP PBX now available Still need to connect to POTS (Plain Old Telephone System)
Voice Over IP Taking phones off PBX to do VoIP or using IP PBX Some reliability issues in large environments Over the WAN, it’s good & saves money for individuals
Quality of Service QOS management needed QOS being built into router ports QOS can be built into switch ports Need to control applications
Example:Network Management Performance Fault Configuration Accounting Security:
Performance –Monitor activity of various types –Use traffic shaper that monitors application traffic and, when configured % exceeded, drops packets –Use Network Management platform to query nodes via SNMP and retrieve performance statistics
Fault –Use SNMP to monitor switches, routers, servers to see if they’re up or down –Notify via paging, if something is down (e.g. ISDN lines go down if no activity so may get errant message, then need to actively send traffic on line to check). Need to avoid storms. –Knocking off a cable or making a change is most likely reason for a node to be down. Sometimes it’s the path to the node that’s down. –Remote reboot. –Battery backups send low power traps.
Configuration –Do some configuring using SNMP sets, but often configure first then deploy –Use Network Management platform to discover nodes in network to make sure nothing new is being attached or something isn’t being taken away
Accounting –Network manager specifies user and device access to network resources. –Assigns privileges to user –No charge back
Security –Firewalls –Monitoring
Some Link Layer Technologies Ethernet – CSMA/CD, 10 – 1000 Mbps Fast Ethernet – 100 Mbps, needs Cat 5 Gigabit Ethernet – 1Gbps LocalTalk – Apple, CSMA/CA Token Ring – IBM, decreasing use FDDI – Fiber Distributed Data, WAN ATM – Asynchronous Transfer Mode, WAN mostly
ProtocolCableSpeedTopology Ethernettwisted pair coaxial fiber 10MbpsLinear bus star, tree Fast Ethernet twisted pair fiber 100Mbpsstar LocalTalktwisted pair.23MbpsLinear bus, star Token RingFiber4 – 16 Mbps Star-Wired Ring FDDIFiber100 MbpsDual ring ATMtwisted pair fiber 155 – 248Mbps Linear bus, star, tree
Ethernet card with RJ-45, AUI, BNC connectors
Twisted Pair Found in telephone applications, ethernet. Form of wiring in which two conductors are wound together to cancel out electromagnetic interference from external sources and crosstalk for neighboring wires.
8 wires Shielded Twisted Pair used in areas susceptible to interference Unshielded Twisted Pair very common
UTP Categories Type Use Category 1 Voice Only (Telephone Wire) Category 2 Data to 4 Mbps (LocalTalk) Category 3 Data to 10 Mbps (Ethernet) Category 4 Data to 20 Mbps (16 Mbps Token Ring) Category 5 Data to 100 Mbps (Fast Ethernet)
Ethernet 10BaseT 10Mbps Ethernet 100BaseTX 100Mbps Cables connecting NIC cards are now usually UTP with RJ-45 connectors For 100BaseTX, the cable must satisfy Category 5 rating. Cat 5 has 4 pairs of twisted wires. 10BaseT and 100BaseTX Ethernet use only 2 of the pairs
Twisted Pair – 2 Flavors
Use Crossover to connect 2 PCs 2 Routers 2 Hubs/Switch Some hubs have an uplink port. Straight through can be used between uplink port of hub and regular hub port. If UTP port on switch is MDI/MDI-X (Medium Dependent Interface), either can be used to connect to another
Use straight through to connect PC to router PC to Hub/Switch
Coaxial Cable Single copper conductor with plastic insulation and braided metal shield Difficult to install but greater cable lengths Thick (10Base5) 500 meters Thin (10Base2) 2 is for 200 but goes 185 meters
BNC is most common connector for coax. Used for video connections – analog and digital. Were commonly used on 10base2 ethernet networks.
Fiber Optic Glass core surrounded by protective materials (Ethernet is 10BaseF) Transmits light vs. electronic signals so eliminates electrical interference Longer distance than coax or twisted pair Immune to moisture, lighting problem Faster Difficult to install
Fiber Optic Cable Uses standard connector (FC, SC, ST, LC, MTRJ)
AUI – Attachment Unit Interface A 15 pin physical connector interface between a NIC and an Ethernet cable Some AUI/RJ-45 transceivers have AUI interface on one side and RJ-45 on the other Becoming rarer because it’s common to include Medium Attachment Unit (ethernet transceiver) internally
Serial Connections Majority use RS-232 RS-232 specifies 25-pin connector called DB pins not always needed so there are other connectors (DB-9, RJ-45)
Serial Connection for Router Configuration One use is to connect router to PC console port for configuration then use a terminal emulation program (e.g. kermit) to talk to the router
Serial Wan Connections Router may have one or more serial WAN interfaces in addition to Ethernet interfaces. Synchronous serial ports Can operate in full-duplex modes E.g. T1 line (1.544 Mbps) Framing may be Point-to-Point Protocol or High Level Data Link (HDLC)
Cisco also uses proprietary DB-60 connector. To connect in lab, use DB-60 crossover cable
Typical T1 WAN connection DSU/CSU – Data Server Unit/Channel Service Unit
Miscellaneous Technologies ISDN Integrated Services Digital Net (not telephone line) DSL Digital Subscriber Line (same cable as telephone) T1 1.5 Mbps ~$800/month T3 2 nd fastest non-optical 45 Mbps ~15K/month SONET Synchronous Optical Networking uses laser or light emitting diodes/LEDs to send digital info OC Mbps Optical size of largest Internet backbone provider OC12 fiber optic net Mbps, smaller backbones OC Mbps/2.4 Gbps (48x basic SONET signal Mbps) OC192 as of 2005 only large ISPs Mbps OC b 11 Mbps g 54 Mbps Cable 10 – 20 Mbps ~$100/month Satellite slower than DSL or cable Broadband intranet access > 56K dialup with cable modem and fiber optic 10 Gigabit ethernet