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Gigabit Ethernet: Is it a disruptive technology?

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Title: Gigabit Ethernet: Is it a disruptive technology?


1
Gigabit Ethernet Is it a disruptive technology?
Ronald Skoog Telcordia Technologies 732-758-2406 r
skoog_at_research.telcordia.com
2
Outline
  • Background
  • The Metro Network Environment and the Technology
    Choices
  • Ethernet and Gb/10Gb Ethernet Technology
    Background
  • Gb/10Gb Ethernet Capabilities and Deficiencies
  • Related Standards and Industry Forum Activities
    and Service Providers
  • Conclusions and Summary

3
Metro Network Environment
  • BOTTLENECK!!
  • SONET-based TDM networks
  • Inefficient for data traffic
  • stranded capacity,
  • no statistical gain
  • Long provisioning times

Residential
LAN
Internet backbone
ISP POP
ISP POP
LAN
MAN
ASP
SSP
  • Business Services/Apps
  • Access to Internet, ASPs, SSPs, etc.
  • LAN-LAN, VLANs, VPNs
  • Flexible, granular bandwidth choices
  • Quick and efficient service provisioning
  • Voice and video

Residential Services/Apps xDSL, Cable, ETTH
HDTV Video Games Voice
4
New Alternatives to SONET
LAN
Residential
Internet backbone
MAN -nDS0, T1, T3 Leased line - TDM-based SONET
LAN
ISP POP
ISP POP
LAN
MAN
Bottleneck !
MSPP NG SONET (VC, GFP)
Gigabit Ethernet
RPR DPT iPT
ATM VP Ring
New Solutions
5
Ethernet Protocol Structure
Logical Link Control (LLC)
802.2
Layer 7
802.1D 802.1Q 802.1p
MAC Bridging
Layer 6
Media Access Control (MAC)
Layer 5
Layer 4
Physical Signaling
Layer 3
802.3
Layer 2
Media
Layer 1
OSI Model
Major IEEE Sublayers
1518 Bytes ? Length ? 64 Bytes
Ethernet Frame Structure
6
Evolution from Shared-Media, Half-Duplex to
Dedicated-Media, Full-Duplex
Dedicated Media
Collision (CSMA/CD resolution)
  • The Critical Development
  • LAN backbone and NIC
  • speeds are independent
  • Networking is now
  • possible

7
Switched GbE Network Architecture
  • Optical Ethernet Service Categories
  • Internet access
  • LAN-LAN Interconnection (Ethernet PL)
  • Metro Transport (Transparent LAN Service)

8
GbE and SONET Network Architectures
GbE Architecture
ISPs
Multi-Tenant Unit Building (MTU)
IP Backbone Providers
LAN 1
Access GbE Switch
Access GbE Switch
Core GbE Switched Network
LAN 2

GbE
GbE
GbE
LAN n
GbE
ASPs
GbE L2 Switch
GbE L2/3 Switch
Server Farm
SONET Architecture
OC3-OC12
OC12 OC48
Office
RFT
IXC
TM
ADM (hub)
ADM
DCS
ADM
DCS
ADM
RFT
ATM
RFT
OC12 OC48
OC48 Collector Ring
Core Ring
OC3 OC12
ISP
DS0-DS3
9
10 Gigabit Ethernet Layer Architecture
802.3 Media Access Control
Reconciliation
64B/66B coding for Serial PMDs 8B/10B coding for
WWDM PMD
XGMII
SONET framer
PCS
850 nm Serial (MMF) 1310 nm Serial (SMF) 1550 nm
Serial (SMF) 1310 WWDM Parallel (MMF, SMF)
WIS
PMA
PHY
PMA
PMD
PMD
MDI
MDI
Medium (Optical Fiber)
LAN PHY
WAN PHY
  • At Layer 2, 10 GbE is mostly unchanged, except
    NO SHARED MEDIA
  • Two Physical (PHY) Layers LAN PHY and WAN PHY
  • Multiple Physical Media Dependent (PMD) layers
  • MMF and SMF
  • Minimum distance requirements from 65 m to 40 km

10
10 GbE Applications
Long Haul Network
ELTE
DWDM
Long Haul Links WAN PHY
Core Routers
10GbE
10 GbE
Metro Network
10 GbE
10GbE
WIS Path
Core Routers
10GbE
Regional/Metro
10GbE
Edge Routers
10GbE
Edge/Core Routers
10GbE
10GbE
GbE
GbE


10GbE
Access Routers
Access Routers
ELTE Ethernet Line Terminating Equipment
Server Farm Connectivity
11
Gb/10Gb Ethernet Capabilities
  • Full duplex point-to-point links with long reach
    to 40 -70 km
  • Big port cost advantage over SONET and ATM (81
    in port costs)
  • Plug-and-play
  • VLAN capability (802.1Q)
  • Spanning tree routing (802.1D) at layer 2
  • Aggregate link capability (802.3ad)
  • Priority capability (aggregate flow QoS) provided
    by 802.1p at Layer 2 and DiffServ at layer 3
  • Policy based QoS
  • Traffic policing, shaping and monitoring at
    customer interface

Optical Ethernet has a significant arsenal of
Networking Capabilities
12
Gb/10Gb Ethernet Deficiencies
  • Protection/restoration times are on the order of
    1 second compared to SONET 50 ms capability
  • QoS is in a similar state as IP QoS
  • over-provisioning needed to provide delay/jitter
    sensitive apps.
  • QoS provided for traffic aggregates, not
    individual flows
  • Routing protocols dont balance load very well on
    link capacity
  • Performance monitoring and fault management are
    not as good as SONET and ATM.
  • Ethernet provides no overhead for performance
    monitoring, alarms, protection signaling, etc.
  • 10GbE WAN PHY has some of this capability
  • Not clear how well GbE OAM will scale (e.g.,
    service provisioning, loopbacks, single-ended
    maintenance)

13
Missing OAMP Functionality in Ethernet
  • Fault Detection, Sectionalization, and Alarming
  • Protection and Restoration (SONET 50msec)
  • Secure Single-Ended Maintenance
  • PHY-Layer Link Quality Monitoring (BER)
  • Loopbacks

14
Why is Ethernet Cheaper?
  • Simple Technology
  • Backwards Compatibility
  • Strict Standardization and Interoperability
  • Customer Familiarity and Acceptance
  • Large Volumes

OPTICS High-Volume, Mass Assembly Plastic
Packaging
ELECTRONICS Byte-oriented Line coding (e.g,
8B10B) Simple frame delineation Relaxed timing
and Jitter
Source Martin Nuss, Internet Photonix
15
Spanning Tree Capability (802.1D)
  • Routing in layer 2 switched networks uses the
    spanning tree algorithm
  • spanning tree routing is prone to traffic
    concentrating on a small number of links and
    switches
  • spanning tree reconfiguration is relatively slow
    (30-50 seconds required)
  • An improved algorithm is being developed
    (P802.1w) that will converge in lt 1 sec. (maybe
    in 10s of ms)
  • Multiple spanning tree capability is being
    developed in P802.1s

LAN
L2 Switch
LAN
L2 Switch
L2 Switch
LAN
L2 Switch
LAN
L2 Switch
L2 Switch
LAN
SWITCHES LEARN TOPOLOGY BY EXCHANGE OF
CONFIGURATION MESSAGES
16
Virtual LAN (VLAN) Capability
  • Virtual LAN and priority capabilities are
    provided by 802.1Q/p
  • a VLAN tag is provided by 802.1Q to identify VLAN
    membership
  • Limited to 4096 VLANs this is a potential
    scalability issue
  • the VLAN tag has a 3-bit priority field that
    allows 8 possible service classes (matches
    DiffServs 8 possible classes)
  • Why VLANS?
  • LAN scalability
  • limits broadcast domains (limits broadcast
    storms)
  • also limits multicast, chatty protocols, etc.,
    reducing overall network traffic.
  • Network efficiencies traffic flows from
    different VLANS can be segregated
  • Allows non-physical grouping of nodes that share
    similar resources
  • Allows easy changing of LAN membership
  • Reduces the amount of level 3 (IP) routing
  • Security limits snooping authentication
    required (via GVRP) to join VLAN

17
VLANs and MPLS-Based Transparent LAN Services
Architecture based on Martini IETF Draft
32 bits
16 bits
16 bits
64 bits
48 bits
16 bits
46 to 1500 Bytes
48 bits
Preamble
Dest MAC Address
Source MAC Address
Length/ Type
Data/LLC
Frame Check Sequence
TCI
TPID
User Priority (3)
CFI (1)
VLAN ID (12)
18
Related Standards and Industry Forum Activities
  • Resilient Packet Ring (RPR) IEEE 802.17
  • Data efficient ring (distributed switch) using
    spatial reuse, 50 ms protection, and bandwidth
    management (allocation and fairness)
  • Ethernet in the First Mile (EFM) Study Group
    IEEE 802.3ah
  • Remote management of customer terminal for
    testing (loopbacks)
  • Link OAM overhead for BER monitoring, alarm
    indication, etc.
  • ITU Study Group 13 (Multi-Protocol and IP-based
    Networks ...)
  • Link OAM and end-to-end OAM
  • Leverage link OAM from EFM
  • Metro Ethernet Forum (Industry Alliance)
  • Ethernet service definitions, technical
    specifications, and interoperability
  • MPLS protection mechanisms to 50 ms protection
  • OAMP is on the agenda (leverage EFM link OAM
    work)

19
Service Providers with Ethernet Services/Plans
Source RHK Inc.
20
Is Gigabit Ethernet a Disruptive Technology?
We believe that GbE is likely to be a Disruptive
Technology
  • It has a huge cost advantage
  • 8-to-1 in port costs, less in provisioning and
    operations
  • Currently serving niche markets
  • Internet access at 2030 equivalent SONET /bps
    prices
  • IP-based (iSCSI) SAN or data backup solution for
    smaller sites giving them Fibre Channel like
    performance
  • No killer issues have been identified
  • There will always be gaps in capabilities,
  • but they are getting smaller, and
  • closing the gap may not be worth the price

21
Conclusions
There is a Race going on at the Optical Edge
  • The main contenders are Gb/10Gb Ethernet, MSPP
    technologies and RPR technology.
  • The MSPPs and RPRs may become more Ethernet-based
  • The SONET-based MSPPs and RPRs may have more
    competitive cost structures
  • It is not clear which technology direction will
    prevail
  • Is multi-service/Multi-protocol capability
    needed, or will Ethernet become the ubiquitous
    layer 2 standard?
  • There is no one answer for all networks
  • Options need to be carefully considered for each
    carrier and service provider

But, GbE Technology will be a Major Player
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