TOC: Switching & Forwarding
Transcript of TOC: Switching & Forwarding
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TOC: Switching & Forwarding� Why?� Switching Techniques� Switch Characteristics� Switch Examples� Switch Architectures� Summary
TOC – Switching
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� Direct vs. Switched Networks:
� Direct Network Limitations:� Distance (coordination delay; propagation limitation)� Number of hosts (collisions; shared bandwidth; address tables)� Single link technology (cannot mix optical, wireless, …)
� Internetworking: Externality gain at low cost
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TOC – Switching – Why?
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� Circuit-Switching (e.g., Telephone net.)� Packet-Switching
� Datagram (e.g., IP, Ethernet)� Virtual Circuits (e.g., MPLS, ATM)� Source Routing
� Comparison
Techniques
TOC – Switching – Techniques
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TOC – Switching – Techniques – Circuit
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TOC – Switching – Techniques – Packet
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PS - Datagram
� General idea: no connection establishment, but each packet contains enough info to specify destination
� Switches contain forwarding tables (but no per-connection “state”)
� Forwarding tables contain info on which outgoing port to use for each destination
� Two types of addressing:� Layer 2 or Layer 3
TOC – Switching – Techniques – Packet - Datagram
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Layer 2 (e.g., Ethernet)
� Flat address space (no structure)� Forwarding table:
Exact match of destination L2 address
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TOC – Switching – Techniques – Packet – Datagram – L2
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Layer 3 (e.g., IP)� L3-network (e.g., IP)
� Topological structure – match prefix� Either fixed prefix length or longest match
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TOC – Switching – Techniques – Packet – Datagram – L3
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TOC – Switching – Techniques – Packet – Datagram – L3
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TOC – Switching – Techniques – Packet – Datagram – L3
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TOC – Switching – Techniques – Packet – Datagram – L3
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PS – Virtual CircuitConnection setup establishes a path through switches
� A virtual circuit ID (VCI) identifies path� Uses packet switching, with packets containing VCI� VCIs are often indices into per-switch connection tables;
change at each hop
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TOC – Switching – Techniques – Packet – VC
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Source Routing
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TOC – Switching – Techniques – Source Routing
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Comparison
lowlowhighRobustness*
yesflexiblenoneResource reservations
lowflexiblehighBandwidth utilization
nonelowhighForwarding cost
Circuit switching
Virtual circuit switching
Datagram
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TOC – Switching – Techniques – Comparison
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Characteristics
� Ports� Fast Ethernet, OC-3, ATM, …
� Protocols� ST, Link Agg., VLAN, OSPF, RIP, BGP, VPN,
Load Balancing, WRED, WFQ
� Performance� Throughput, Reliability, Power, …
TOC – Switching – Characteristics
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Examples
� Juniper M160� Cisco “GSR”� Cisco “7600”� Cisco “catalyst 6500”� Extreme “Summit”� Foundry “ServerIron”
TOC – Switching – Examples
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Cisco GSR - 12416
� WAN Router – Large throughput; SONET links� Up to 16 line cards at 10 Gbps each� Crossbar Fabric� Line Cards:
1-port OC-192c4-port OC48cMany others (ATM, Ethernet, …)
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TOC – Switching – Examples – GSR
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Juniper M160
� WAN Router – Large throughput; SONET links� Crossbar Fabric� Line Cards:
1-port OC-192c4-port OC48cMany others (ATM, Ethernet, …)
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TOC – Switching – Examples – M160
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Cisco 7600
� MAN-WAN Router� Up to 128 Gbps with Crossbar
Fabric� 10Mbps – 10Gbps LAN
Interfaces� OC-3 to OC-48 SONET
Interfaces� MPLS, WFQ, LLQ, WRED,
Traffic Shaping
TOC – Switching – Examples – 7600
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Cisco cat 6500� From LAN to Access� 48 to 576 10/100 Ethernet Interfaces� 10 GE, OC-3, OC-12, OC-48, ATM� QoS, ACL� Load Balancing; VPN� Up to 128Gbps
(with crossbar)� L4-7 Switching� VLAN� IP Telephony (E1, T1, inline-power Ethernet)� SNMP, RMON
TOC – Switching – Examples – Cat6k
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Extreme - Summit
� 48 10/100 ports� 2 GE (SX, LX, or LX-70)� 17.5Gbps non-blocking� 10.1 Mpps� Wire speed L2� Wire speed L3 static or RIP� OSPF, DVRMP, PIM, …
TOC – Switching – Examples – Summit
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Foundry - ServerIron
� Server Load Balancing � Transparent Cache Switching � Firewall Load Balancing � Global Server Load Balancing � Extended Layer 4-7 functionality including URL-, Cookie-,
and SSL Session ID-based switching � Secure Network Address Translation (NAT) and
Port address translation (PAT)
TOC – Switching – Examples – ServerIron
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Architectures
� Generic Architecture� First Generation� Second Generation� Third Generation� Input Functions� Output Functions� Interconnection Designs
� OUT� IN� VOB� Combined IN/OUT
TOC – Switching – Architectures
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Generic
� Input and output interfaces are connected through an interconnect
� A interconnect can be implemented by
� Shared memory � low capacity routers (e.g.,
PC-based routers)
� Shared bus� Medium capacity routers
� Point-to-point (switched) bus
� High capacity routers
input interface output interface
Inter-connect
TOC – Switching – Architectures – Generic
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RouteTableCPU Buffer
Memory
LineInterface
MAC
LineInterface
MAC
LineInterface
MAC
Typically < 0.5Gbps aggregate capacityLimited by rate of shared memory
Shared Backplane
Line Interface
CPU
Memory
Slide by Nick McKeown
First Generation
TOC – Switching – Architectures – First
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RouteTableCPU
LineCard
BufferMemory
LineCard
MAC
BufferMemory
LineCard
MAC
BufferMemory
FwdingCache
FwdingCache
FwdingCache
MAC
BufferMemory
Typically < 5Gb/s aggregate capacity
Limited by shared bus
Slide by Nick McKeown
Second Generation
TOC – Switching – Architectures – Second
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LineCard
MAC
LocalBuffer
Memory
CPUCard
LineCard
MAC
LocalBuffer
Memory
Switched Backplane
Line Interface
CPUMemory Fwding
Table
RoutingTable
FwdingTable
Typically < 50Gbps aggregate capacity Slide by Nick McKeown
Third Generation
TOC – Switching – Architectures – Third
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Input Functions
� Packet forwarding: decide to which output interface to forward each packet based on the information in packet header�examine packet header� lookup in forwarding table�update packet header
TOC – Switching – Architectures – Input Functions
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Output Functions� Buffer management: decide when and
which packet to drop� Scheduler: decide when and which
packet to transmit
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TOC – Switching – Architectures – Output Functions
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Output Functions (ct)� Packet classification: map each packet to a
predefined flow/connection (for datagram forwarding)� use to implement more sophisticated services (e.g.,
QoS)
� Flow: a subset of packets between any two endpoints in the network
1
2
Scheduler
flow 1
flow 2
flow n
Classifier
Buffer management
TOC – Switching – Architectures – Output Functions
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Output Queued � Only output interfaces
store packets� Advantage
� Easy to design algorithms: only one congestion point
� Disadvantage� Requires an output
speedup Ro/C = N, where N is the number of interfaces � not feasible for large N
input interface output interface
Backplane
CRO
TOC – Switching – Architectures – Output Queued
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Input Queues
� Only input interfaces store packets
� Advantages� Easy to build� Simple algorithms
� Disadvantages� HOL Blocking� In practice:
Speedup of 2 suffices
input interface output interface
Backplane
CRO
TOC – Switching – Architectures – Input Queued
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Note: Head-of-line Blocking� The cell at the head of an input queue cannot be
transferred, thus blocking the following cells
Output 1
Output 2
Output 3
Input 1
Input 2
Input 3
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TOC – Switching – Architectures – Input Queued: HOL
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Virtual Output Buffers
� OUT buffers at each input port� Complexity: Matching Problem� Full throughput algorithm� Good Heuristic
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TOC – Switching – Architectures – VOB
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VOB: Full Throughput
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TOC – Switching – Architectures – VOB: Full Throughput
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VOB: Good Heuristic – i-SLIP� Inputs request permission to send from outputs� Outputs grant permissions to inputs (round-robin)� Inputs accept permissions (round-robin)
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TOC – Switching – Architectures – VOB: iSLIP
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Combined IN/OUT� Both input and output interfaces store packets� Advantages
� Easy to built � Utilization 1 can be
achieved with limited input/output speedup (<= 2)
� Disadvantages� Harder to design algorithms
� Two congestion points� Need to design flow control
input interface output interface
Backplane
CRO
TOC – Switching – Architectures – IN/OUT
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� Switching needed for big networks� Internetworking externality� Circuit� Packet – VC: QoS possible� Packet – Datagram
� L2: Limited by flat address space� L3:
� Exact Match: Easy lookup – less efficient� Longest Prefix Match
� Switch functions: control and data � Different Architectures:
� cost vs. performance
Summary
TOC – Switching – Summary