80n-week5.ppt
TRANSCRIPT
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1CMPE 80N - Introduction to Networks and the Internet
CMPE 80N
Spring 2003
Week 5
Introduction to Networks and the Internet
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2CMPE 80N - Introduction to Networks and the Internet
Announcements
• HTML tutorial today.
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3CMPE 80N - Introduction to Networks and the Internet
MAC Protocols
• Round-robin.• Scheduled-access.• Contention-based.
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4CMPE 80N - Introduction to Networks and the Internet
MAC Protocols
• Contention-based– ALOHA and Slotted ALOHA.
– CSMA.
– CSMA/CD.
• Round-robin– Centralized: polling (e.g., 802.11 PCF)
– Distributed: token-based protocols.• Token bus.• Token ring.
• Scheduled-access: – DQDB.
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5CMPE 80N - Introduction to Networks and the Internet
Round-Robin MAC
• Each station is allowed to transmit; station may decline or transmit (bounded by some maximum transmit time).
• Centralized (e.g., polling) or distributed (e.g., token ring) control of who is next to transmit.
• When done, station relinquishes and right to transmit goes to next station.
• Efficient when many stations have data to transmit over extended period (stream).
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6CMPE 80N - Introduction to Networks and the Internet
Scheduled Access MAC
• Time divided into slots.• Station reserves slots in the future.• Multiple slots for extended transmissions.• Suited to stream traffic.
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7CMPE 80N - Introduction to Networks and the Internet
Contention-Based MAC
• No control.• Stations try to acquire the medium.• Distributed in nature.• Perform well for bursty traffic.• Can get very inefficient under heavy load.
• NOTE: round-robin and contention are the most common.
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8CMPE 80N - Introduction to Networks and the Internet
Contention-Based MACs
• Aloha and Slotted Aloha.• CSMA.• CSMA/CD.
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9CMPE 80N - Introduction to Networks and the Internet
CSMA/CD Protocol
1. If medium idle, transmit; otherwise 2.
2. If medium busy, wait until idle, then transmit.
3. If collision detected, abort transmission.
4. After aborting, wait random time, try again.
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10CMPE 80N - Introduction to Networks and the Internet
Ethernet
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11CMPE 80N - Introduction to Networks and the Internet
Ethernet • Most popular CSMA/CD protocol.• What if a computer transmits a very long
message?– It keeps the line busy for very long time, while
all other computers in the LAN must wait for the long message to end
• Rule #1 of resource sharing: All “messages” must be “small”, to allow other computers to access the line– For Ethernet, the maximum size of the
payload is 1,500 bytes
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12CMPE 80N - Introduction to Networks and the Internet
Ethernet (cont’d)• What is expected performance?
– When only one computer needs to transmit: it can immediately access the line.
– When many computers want access (high traffic):
• Average waiting time is high.• There is high probability of “collision”.
– For every collision, Xmission must start agan
– Fairness?.• Conclusion: expected delay depends on the
traffic on the LAN!
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13CMPE 80N - Introduction to Networks and the Internet
Ethernet Frame Format
Preamble DA SA Type Data CRC Postamble
Type: identifies upper layer protocol (for demux’ing)Data: 0-1500 bytes (min. is 46 bytes).DA and SA: destination and source addresses.
8 6 6 2 4 1
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14CMPE 80N - Introduction to Networks and the Internet
Round-Robin MACs
• Polling.• Token passing.
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15CMPE 80N - Introduction to Networks and the Internet
Token Passing
• Consider the following game: – A group of friends sitting in a circle– A ball is passed from friend to friend
• When somebody receives the ball, it passes to the friend to his/her left
– A person is allowed to talk only when s/he has the ball in his/her hands
• This guarantees that only one person talks at a time!
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16CMPE 80N - Introduction to Networks and the Internet
Token Passing (cont’d)
• Let’s make the game more difficult:– A person that receives the ball and has something to
say, rather than saying it, s/he writes it on a letter• Including the name of the addressee
– Before passing along the ball, s/he passes along the letter
– Everyone who receives the paper passes it to the person to his/her left
• If s/he is the recipient of the letter, s/he signs it after reading it
– Once the letter arrives back to the sender, s/he throws it away
• The ball is still circulating in the circle
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17CMPE 80N - Introduction to Networks and the Internet
Token Ring
• A Token Ring MAC works similarly:– A special pattern (3-bytes word) of bits called token
moves from one computer to the next.
– If a computer does not have a message to send, it just passes the token along.
– Otherwise, it “seizes the token” and transmits its message (including the address) instead.
– The message is passed from one computer to the next, until it arrives back to the sender, which “destroys” it (does not pass it along anymore).
– The addressee may “write” something on the message so that the sender knows it has been received correctly.
– Once the computer is done transmitting the message, it “releases” (transmits) the token.
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18CMPE 80N - Introduction to Networks and the Internet
Token Ring (cont’d)
• When station wants to transmit:– Waits for token.
– Seizes it.
– Transmits frame.
• When station seizes token and begins transmission, there’s no token on the ring; so nobody else can transmit.
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19CMPE 80N - Introduction to Networks and the Internet
Token Ring (cont’d)• What is expected performance of Token
Passing?– It is fair.
• Each computer is given in turn an opportunity to transmit, even when the traffic is high.
– However, even if only one computer needs to transmit a message, it has to wait that it receives the token.
• Again, long messages should not be allowed, because otherwise one computer may “hold the token” for too long.
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20CMPE 80N - Introduction to Networks and the Internet
Token Ring Frame Format
1SD AC FC DA SA Data FCS
1 1 2 or 6 2 or 6 4
SD: starting delimiter; indicates starting of frame.AC: access control; PPPTMRRR; PPP and RRR priority and reservation; M monitor bit; T token or data frame.FC: frame control; if LLC data or control.DA and SA: destination and source addresses.FCS: frame check sequence.
SD AC FC Token frame
ED: ending delimiter; contains the error detection bit E; containsframe continuation bit I (multiple frame transmissions).FS: frame status.
1 1
ED FS
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21CMPE 80N - Introduction to Networks and the Internet
Ethernet versus Token Ring
• Token ring:– Efficient at heavy traffic.
– Guaranteed delay.
– Fair.
– But, ring/token maintenance overhead.
– But, under light traffic?
• Ethernet is simple!
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22CMPE 80N - Introduction to Networks and the Internet
MAC for Wireless Networks
• IEEE 802.11.• Distributed access control mechanism (DCF)
based on CSMA with optional centralized control (PCF).
•
Physical Layer
DCF
PCFMAClayer
Contention-freeService (polling)
ContentionService(CSMA)
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23CMPE 80N - Introduction to Networks and the Internet
802.11
• Distributed coordination function (DCF) uses CSMA-based protocol (e.g., ad hoc networks).
• CD does not make sense in wireless.– Hard for transmitter to distinguish its own
transmission from incoming weak signals and noise.
– Special radios that can Xmit/receive at the same time: expensive!
• Point coordination function (PCF) uses polling to grant stations their turn to transmit (e.g., cellular networks).
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24CMPE 80N - Introduction to Networks and the Internet
Local Area Networks
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25CMPE 80N - Introduction to Networks and the Internet
LANs
• Technology for connecting multiple computers across short distances (“within a building” - up to a few KM)– Inexpensive
– Highly reliable
– Easy to install and manage
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26CMPE 80N - Introduction to Networks and the Internet
LAN (cont’d)
• LANs are usually privately owned/operated.• Available bit-rates: up to 1 Gb/s with low
delay (~10 s) and low error rate.• Topology: linear, ring or star.• Typical technologies for LAN:
– Ethernet
– Token Ring
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27CMPE 80N - Introduction to Networks and the Internet
LAN Topologies
1
2
3
4
Bu
s to
po
log
y (e
.g.:
Eth
ern
et) 1
2
43
Ring topology (e.g.: Token Ring)
5
1
2
43Star topology (e.g.: Switched Ethernet)
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28CMPE 80N - Introduction to Networks and the Internet
Network Interface Card (NIC)
• Each computer is connected to the network through a special Network Interface Card (NIC)– LAN transfers data independently of types of
computers attached to it. – The interface board “shields” the LAN from the
characteristics of each device (e.g., speed).
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29CMPE 80N - Introduction to Networks and the Internet
NIC (cont’d)• A.k.a. LAN adapter. Acts as the interface
between the computer and the network– It separates the CPU from electrical and low-level
networking issues.
• Can directly access the computer’s memory independently of the CPU– “Direct Memory Access” or DMA.
• Accesses memory through the “data bus” within the computer (typically PCI bus)
• PCI: parallel communication.• NIC converts from parallel to serial and vice-versa.
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30CMPE 80N - Introduction to Networks and the Internet
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31CMPE 80N - Introduction to Networks and the Internet
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32CMPE 80N - Introduction to Networks and the Internet
NIC: Data Transmission
• To transmit a data on the network:– CPU forms the data item in memory and
instructs NIC to begin transmission.• After this, CPU can go back to its other tasks.
– NIC grabs the packet in memory and handles the details of accessing the medium and transmitting bits.
– When it is done transmitting the data packet, NIC informs the CPU.
• Uses the “interrupt” mechanism
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33CMPE 80N - Introduction to Networks and the Internet
NIC: Data Reception
• To receive an incoming data packet:– CPU allocates buffer space in memory and
instructs the NIC to read the next incoming packet into the buffer.
– NIC waits for a packet to cross the network, reads it and checks the destination address.
– If the destination’s address matches the computer’s address, NIC reads into the buffer memory and informs the CPU.
– Otherwise, it just discards the packet.
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34CMPE 80N - Introduction to Networks and the Internet
PC Cards
• Laptop and handheld PDAs often use credit-card-like NIC that fit into a special slot
• PCMCIA: overall standard for expansion slots in laptops (not only for NIC!)
• Two types of PCMCIA cards:– PC Cards: older technology - ~ 8 MB/s– Cardbus: up to 133 MB/s
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35CMPE 80N - Introduction to Networks and the Internet
Network Cables
• General rule:– Available bitrate on a cable depends on type and
length of the cable• If you increase the cable length, the maximum
bitrate will decrease
Twisted pair Coax cable Fiber optic
Speed Fast Fast Very fast
Length Short Medium Very long
Cost Cheap Medium Expensive
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36CMPE 80N - Introduction to Networks and the Internet
Network Cables (cont’d)
• Coaxial cables– A.k.a. “Thin Ethernet Wiring”
• Used for bus topology (Ethernet)
– Less prone to interference than twisted pairs– Can transmit hundreds of Mb/s over distances
of ~1Km– Uses BNC connectors (thick)– Requires a “terminator”– More expensive and bulky than twisted pairs
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37CMPE 80N - Introduction to Networks and the Internet
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38CMPE 80N - Introduction to Networks and the Internet
Network Cables (cont’d)
• Unshielded Twisted Pairs– More than one twisted pair in the cable– Used in the 10BaseT and 100BaseT scheme
for Ethernet• It is a bus topology but uses a “wiring hub”
– Uses RJ-45 connectors– Wires are twisted in pairs to reduce
interference– Economical, but can’t be longer than ~100
meters– Supports bitrates of up to Gb/s
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39CMPE 80N - Introduction to Networks and the Internet
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40CMPE 80N - Introduction to Networks and the Internet
Cabling a Building
Thin Ethernet
Twisted pairs
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41CMPE 80N - Introduction to Networks and the Internet
Network Cables (cont’d)
• Fiber Optic Cables– Data is transmitted in the form of pulses of light– Very high bitrate (up to 1 Gb/s) over many miles– Rather expensive– Connections and splices are difficult to make
(-> very expensive)– Often used to interconnect different LANs
• Remember that LANs have a maximum length specification!
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42CMPE 80N - Introduction to Networks and the Internet
Wireless LANs• Wireless LANs use radio bridges to transmit data
– Example: 802.11 (up to 11 Mb/s)
• An Access Point (a.k.a. base station) is connected to the wired LAN and communicates with the wireless card of nearby computers
• For 802.11: each Access Point only covers a radius of no more than 200 feet (and less if there are walls or obstacles)– Therefore, to allow for LAN access within a
building, several Access Points need to be installed in the different rooms/corridors
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43CMPE 80N - Introduction to Networks and the Internet
LAN Interconnection
• Extend LAN coverage.• Interconnect different types of LAN.• Connect to an internetwork.• Reliability and security.
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44CMPE 80N - Introduction to Networks and the Internet
Switched Ethernet
• Point-to-point connections to multi-port hub acting like switch; no collisions.
• More efficient under high traffic load: break large shared Ethernet into smaller segments.
Hub
Switch
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45CMPE 80N - Introduction to Networks and the Internet
Interconnection Schemes
• Hubs or repeaters: physical-level interconnection.– Devices repeat/amplify signal.
– No buffering/routing capability.
• Switches: network-layer interconnection.– Switching capability.
– Interconnect different types of networks.