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CISCO Virtual Private LAN Service (VPLS) Technical Deployment Overview
- 1. 1© 2004 Cisco Systems, Inc. All rights reserved.
Cisco IOS® MPLS
Virtual Private LAN Service (VPLS)
Technical Deployment Overview
Enabling Innovative Services
- 2. 222© 2004 Cisco Systems, Inc. All rights reserved.
Agenda
• Introduction
• VPLS Technical Overview
• VPLS Architectures
• Deployment Scenarios
• Summary
- 3. 333© 2004 Cisco Systems, Inc. All rights reserved.
Introduction
Presentation_ID 333© 2003 Cisco Systems, Inc. All rights reserved.
- 4. 444© 2004 Cisco Systems, Inc. All rights reserved.
Metro Ethernet:
Emerging Multiservice Access Opportunity
100 Mbps
Ethernet
Remote
Worker
Ethernet-
Connected
Branch
Remote
Office 1
Remote
Office 2
Regional
Headquarters
Ethernet-
Connected
Branch
10 Mbps
Ethernet
Ethernet,
SONET/SDH,
RPR,
DWDM/CWDM,
MPLS/IP
Subscriber
STB
Residential
CPEMultitenant Unit (MTU)
Basement Access
Device
Internet PSTN
Web HostingWeb Hosting
Directory ServicesDirectory Services
Secure E-MailSecure E-Mail
Mobile AccessMobile Access
Hosted TelephonyHosted TelephonyVideoconferencingVideoconferencing
Storage HostingStorage Hosting
Business ContinuanceBusiness Continuance
Unified MessagingUnified Messaging
SP
Metro Ethernet
Network
- 5. 555© 2004 Cisco Systems, Inc. All rights reserved.
Metro Ethernet: Business Drivers*
100 Mbps
Ethernet
Remote
Worker
Ethernet-
Connected
Branch
Remote
Office 1
Remote
Office 2
Regional
Headquarters
Ethernet-
Connected
Branch
10 Mbps
Ethernet
Ethernet,
SONET/SDH,
RPR,
DWDM/CWDM,
MPLS/IP
Subscriber
STB
Residential
CPEMulti-Tenant Unit
(MTU) Basement
Access Device
Internet PSTN
SP
Metro Ethernet
Network
Service Provider
• Revenue Growth
New, Differentiated Services
Expanded Enterprise Penetration
• Cost Efficiencies
Network Convergence
Flexible Bandwidth Provisioning
Best Value for Increased Bandwidth
Enterprise
• Business Demands
Increased Productivity
Peer-to-Peer Applications
• Service Expectations
Scalable Bandwidth (from 1Mbps to 1Gbps)
Customized Services
Multipoint Connectivity
Operational Simplicity
*Cisco VPLS Statement of Direction http://www.cisco.com/en/US/products/hw/routers/ps368/products_white_paper09186a00801df1df.shtml
- 6. 666© 2004 Cisco Systems, Inc. All rights reserved.
The Ethernet Advantage
• Connectionless, IP aware-operation
• Distributed intelligence
• Inexpensive, scalable bandwidth
options
• L2 VPNs
• Point-to-point
• Multipoint
• L3 VPNs
• High speed transport enables
innovative services and applications
• Storage, IP video conferencing
• Value added services
• IP Telephony
• IP video conferencing
• High speed, bBusiness class Internet
• Managed Security
• Managed Storage
- 7. 777© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Overview for Metro Ethernet
u-PE
10/100/
1000 Mpbs
10/100/
1000
M
pbs
Metro D
Hub &
Spoke
Metro C
10/100/
1000 Mpbs
u-PE
SiSiGE Ring
Metro A
u-PE
PE-AGG
10/100/
1000 Mpbs
DWDM/
CDWM
Metro B
u-PE
P Pn-PE
VPLS NetworkVPLS Network
n-PE
PP
SONET/SDH
Ring
n-PE
C7600C7600
C7600
•Delivers Ethernet-based multipoint L2 VPN service
•Enhances L2 VPN scalability (geographic sites & no. of customers)
•Leverages existing SP MPLS Core
•Supports operational speeds of GB to 10 GB
•On track for IETF standardization: Draft Lasserre-Kompella
•Uses familiar Ethernet user network interface
- 8. 888© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Technical Overview
Presentation_ID 888© 2003 Cisco Systems, Inc. All rights reserved.
- 9. 999© 2004 Cisco Systems, Inc. All rights reserved.
Virtual Private LAN Services (VPLS)
• VPLS defines an architecture that delivers Ethernet Multipoint
Services (EMS) over an MPLS network
• VPLS operation emulates an IEEE Ethernet bridge
• Two VPLS drafts in existance
Draft-ietf-l2vpn-vpls-ldp-01 Cisco’s Implementation
draft-ietf-l2vpn-vpls-bgp-01
CE
PE
MPLS
Network
PE
VPLS Is An Architecture
CE
CE
- 10. 101010© 2004 Cisco Systems, Inc. All rights reserved.
VPLS & H-VPLS
• H-VPLS
Two Tier Hierarchy
MPLS or Ethernet Edge
MPLS Core
• VPLS Direct Attachment
Single Flat Hierarchy
MPLS to the Edge
192.168.11.1/24
192.168.11.2/24
192.168.11.12/24
192.168.11.11/24
192.168.11.25/24
MPLS EdgeMPLS Core
PW
n-PE
PE-POP
PE-rs
u-PE
PE-CLE
MTU-s
u-PE
PE-CLE
MTU-s
n-PE
PE-POP
PE-rsGE
Ethernet Edge
Point-to-Point or Ring
VPLS
H-VPLS
- 11. 111111© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Components
n-PE
n-PE
n-PE
PW
PW
PW
CE
CE
CE
CE
CE
CE
CE
CE
TunnelLSP
TunnelLSP
Tunnel LSP
Green VSI
Blue VSI
Red VSI
Green VSI
Blue VSI
Red VSI
Red VSI
Blue VSI
Legend
CE - Customer Edge Device
n-PE - network facing-Provider Edge
VSI - Virtual Switch Instance
PW - Pseudo-Wire
Tunnel LSP - Tunnel Label Switch Path that
provides PW transport
Attachment Circuit
Full Mesh of PWs
between VSIs
Directed LDP
session between
participating PEs
- 12. 121212© 2004 Cisco Systems, Inc. All rights reserved.
VPN & VPLS Desirable Characteristics
• Auto-discovery of VPN membership
Reduces VPN configuration and errors associated with
configuration
• Signaling of connections between PE devices associated
with a VPN
• Forwarding of frames
AToM uses Interface based forwarding
VPLS uses IEEE 802.1q Ethernet Bridging techniques
• Loop prevention
MPLS Core will use a full mesh of PWs and “split-horizon”
forwarding
H-VPLS edge domain may use IEEE 802.1s Spanning Tree, RPR, or
SONET Protection
- 13. 131313© 2004 Cisco Systems, Inc. All rights reserved.
Cisco VPLS Building Blocks
A Comprehensive Solution: Robust, Flexible, Scalable, Manageable
Point-to-Point
Layer 2 VPN
Layer 2 VPN
NMS/
OSS
Multipoint
Layer 2 VPN
Forwarding
Mechanism
Tunnel
Protocol
Hardware
Interface-Based/
Sub-Interface
Ethernet
Switching (VFI)
Cisco 7600 Catalyst 6500
MPLS IP
VPN
Discovery
Signaling
Centralized
DNS Radius Directory Services
Distributed
BGP
Label Distribution
Protocol
Layer 3 VPN
IP Routing
- 14. 141414© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Auto-discovery & Signaling
VPN
Discovery
Signaling
Centralized
DNS Radius Directory Services
Distributed
BGP
Label Distribution
Protocol
• Draft-ietf-l2vpn-vpls-ldp-01 does not mandate an auto-discovery protocol
Can be BGP, Radius, DNS, AD based
• Draft-ietf-l2vpn-vpls-ldp-01 describes using Targeted LDP for Label
exchange and PW signaling
PWs signal other information such as Attachment Circuit State, Sequencing
information, etc
Cisco IOS supports Targeted LDP for AToM and Virtual Private LAN Services
- 15. 151515© 2004 Cisco Systems, Inc. All rights reserved.
VPLS: Layer 2 Forwarding Instance
Requirements
Flooding / Forwarding:
• MAC table instances per customer and per customer VLAN (L2-
VRF idea) for each PE
• VSI will participate in learning, forwarding process
• Uses Ethernet VC-Type defined in pwe3-control-protocol-xx
Address Learning / Aging:
• Self Learn Source MAC to port associations
• Refresh MAC timers with incoming frames
• New additional MAC TLV to LDP
Loop Prevention:
• Create partial or full-mesh of EoMPLS VCs per VPLS
• Use “split horizon” concepts to prevent loops
• Announce EoMPLS VPLS VC tunnels
A Virtual Switch MUST operate like a conventional L2 switch!
- 16. 161616© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Overview:
Flooding & Forwarding
• Flooding (Broadcast, Multicast, Unknown Unicast)
• Dynamic learning of MAC addresses on PHY and VCs
• Forwarding
-Physical port
-Virtual circuit
???
Data SA ?
- 17. 171717© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Overview:
MAC Address Learning
PE1 PE2
VC Label 102 Tx
Tx VC Label 201
CECE
Data MAC 1 MAC 2 201
DataMAC 1 MAC 2102
E0/0
MAC 2 E0/1
MAC Address Adj
MAC 1 102
MAC x xxx
MAC 2 201
MAC Address Adj
MAC 1 E0/0
MAC x xxx
• Broadcast, Multicast, and unknown Unicast are learned
via the received label associations
• Two LSPs associated with an VC (Tx & Rx)
• If inbound or outbound LSP is down, then the entire
circuit is considered down
Send me traffic
with Label 201
Send me trafficSend me traffic
with Label 201with Label 201
Send me traffic
with Label 102
Send me trafficSend me traffic
with Label 102with Label 102
E0/1
- 18. 181818© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Overview:
MAC Address Withdrawal
X
LDP Address Withdrawal
• Primary link failure triggers notification message
• PE removes any locally learned MAC addresses and sends
LDP address withdrawal (RFC3036) to remote PEs in VPLS
• New MAC TLV is used
- 19. 191919© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Overview:
Data Forwarding in Ethernet Edge H-VPLS
Topology 2: L2VPN, Ethernet Virtual Circuit Service (Distributed PE)
MPLS
Network
CE1
N-PE
Full Mesh LDP
U-PE N-PE
QinQ
7600s3550s
.1Q
CE4
802.3
401
SA DAEther
Type
SA DAEther
Type
Customer
VLAN
SP VLAN
133 401 VC LabelData
• Customer frames / VLANs are forwarded only
• Service delimiters are local to PE
.1q tags, VC-labels, RFC1483, etc.
• Allows for hierarchical design options
- 20. 202020© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Overview:
VPLS Loop Prevention
MPLS Network
- LDP between VPLS members
- EoMPLS PW to each peer
CEs
PEs
PE view
• Each PE has a P2MP view of all other PEs it sees it self as a root
bridge, split horizon loop protection
• Full mesh topology obviates STP requirements in the service
provider network
• Customer STP is transparent to the SP / customer BPDUs are
forwarded transparently
• Traffic received from the network will not be forwarded back to
the network
- 21. 212121© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Overview: VPLS Learning
• Unqualified
Single port assigned for all customer VLANs
Single broadcast domain for all customer VLANs
Single MAC address space (no overlap!)
• Qualified
Each VLAN has its own VPLS instance
A VLAN has its own broadcast space and MAC address space
Customer MAC addresses MAY overlap
One FIB per customer VLAN
Broadcast domain limited to VLAN scope
- 22. 222222© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Architectures
Presentation_ID 222222© 2003 Cisco Systems, Inc. All rights reserved.
- 23. 232323© 2004 Cisco Systems, Inc. All rights reserved.
VPLS & H-VPLS
• H-VPLS
Two Tier Hierarchy
MPLS or Ethernet Edge
MPLS Core
• VPLS
Single Flat Hierarchy
MPLS to the Edge192.168.11.1/24
192.168.11.2/24
192.168.11.12/24
192.168.11.11/24
192.168.11.25/24
MPLS EdgeMPLS Core
PW
n-PE
PE-POP
PE-rs
u-PE
PE-CLE
MTU-s
u-PE
PE-CLE
MTU-s
n-PE
PE-POP
PE-rsGE
Ethernet Edge
Point-to-Point or Ring
VPLS
H-VPLS
- 24. 242424© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Overview:
Illustrated – Direct Attachment (Flat)
MAC 1 E0/0
Address Tx / Rx
MAC 2 201 / 102
MAC 3 301 / 103
MAC 1 103 / 301
Address Tx / Rx
MAC 2 203 / 302
MAC 3 E0/1
MAC 1 102 / 201
Address Tx / Rx
MAC 2 E1/1
MAC 3 303 / 203
MPLS Network
MAC 1
CE1
CE2
CE3
PE2
PE3
PE1
MAC 2
PE1, VCID 100
MAC 3
• Port or P-VLAN based membership in the VSI in PEs
• All packet replication occurs on PEs
- 25. 252525© 2004 Cisco Systems, Inc. All rights reserved.
VPLS: Configuration Example
PE PE
Create a L2 VFI with a full mesh of participating VPLS PE nodes
l2 vfi PE2-VPLS-A manual
vpn id 100
neighbor 1.1.1.1 encapsulation mpls
neighbor 3.3.3.3 encapsulation mpls
!
Interface loopback 0
ip address 2.2.2.2 255.255.255.255
l2 vfi PE1-VPLS-A manual
vpn id 100
neighbor 2.2.2.2 encapsulation mpls
neighbor 3.3.3.3 encapsulation mpls
!
Interface loopback 0
ip address 1.1.1.1 255.255.255.255
l2 vfi PE3-VPLS-A manual
vpn id 100
neighbor 1.1.1.1 encapsulation mpls
neighbor 2.2.2.2 encapsulation mpls
!
Interface loopback 0
ip address 3.3.3.3 255.255.255.255
PE-1
MPLS
Network
PE-2
PE-3
2.2.2.2 / 32
3.3.3.3 / 32
1.1.1.1 / 32
- 26. 262626© 2004 Cisco Systems, Inc. All rights reserved.
VPLS: Configuration Example
PE CE
PE-1
MPLS
Network
PE-2
PE-3
FE0/0CE1 CE1
CE1
Interface fastethernet0/1
switchport
switchport mode dot1qtunnel
switchport access vlan 100
!
Interface vlan 100
no ip address
xconnect vfi PE3-VPLS-A …etc.
FE0/0
Interface fastethernet0/0
switchport
switchport mode dot1qtunnel
switchport access vlan 100
!
Interface vlan 100
no ip address
xconnect vfi PE1-VPLS-A
!
vlan 100
state active
Interface fastethernet0/0
switchport
switchport mode dot1qtunnel
switchport access vlan 100
!
Interface vlan 100
no ip address
xconnect vfi PE2-VPLS-A
!
vlan 100
state active
FE0/1
- 27. 272727© 2004 Cisco Systems, Inc. All rights reserved.
VPLS: Sample Output
VPLS1#show mpls l2 vc
Local intf Local circuit Dest address VC ID Status
------------- -------------------- --------------- ---------- ----------
Vi1 VFI 22.22.22.22 100 DOWN
Vi1 VFI 22.22.22.22 200 UP
Vi1 VFI 33.33.33.33 100 UP
Vi1 VFI 44.44.44.44 100 UP
Vi1 VFI 44.44.44.44 200 UP
PE-1
MPLS
Network
PE-2
PE-3
PE-1#show vfi PE1-VPLS-A
WORD VFI name
PE-1#show vfi PE1-VPLS-A
VFI name: VPLSA, state: up
Local attachment circuits:
Vlan100
Neighbors connected via pseudowires:
2.2.2.2 3.3.3.3
PEPE--1#show1#show vfivfi PE1PE1--VPLSVPLS--AA
WORD VFI nameWORD VFI name
PEPE--1#show1#show vfivfi PE1PE1--VPLSVPLS--A
VPLS1#show mpls l2 vc
Local intf Local circuit Dest address VC ID Status
------------- -------------------- --------------- ---------- ----------
Vi1 VFI 22.22.22.22 100 DOWN
Vi1 VFI 22.22.22.22 200 UP
Vi1 VFI 33.33.33.33 100 UP
Vi1 VFI 44.44.44.44 100 UP
Vi1 VFI 44.44.44.44 200 UP
A
VFI name: VPLSA, state: upVFI name: VPLSA, state: up
Local attachment circuits:Local attachment circuits:
Vlan100Vlan100
Neighbors connected via pseudowires:Neighbors connected via pseudowires:
2.2.2.2 3.3.3.32.2.2.2 3.3.3.3
- 28. 282828© 2004 Cisco Systems, Inc. All rights reserved.
VPLS: Sample Output (Cont)
VPLS1#show mpls l2transport vc vcid 200 detail
Local interface: Vi1 up, line protocol up, VFI
Destination address: 22.22.22.22, VC ID: 200, VC status: up
Tunnel label: imp-null, next hop point2point
Output interface: PO2/1, imposed label stack {16}
MPLS VC labels: local 18, remote 16
Group ID: local 200, remote 200
MTU: local 1500, remote 1500
Remote interface description:
Sequencing: receive disabled, send disabled
VC statistics:
packet totals: receive 0, send 0
byte totals: receive 0, send 0
packet drops: receive 0, send 0
…..cont…for all VPLS PWs sharing a common VC ID
VPLS1#show mpls l2transport vc vcid 200 detail
Local interface: Vi1 up, line protocol up, VFI
Destination address: 22.22.22.22, VC ID: 200, VC status: up
Tunnel label: imp-null, next hop point2point
Output interface: PO2/1, imposed label stack {16}
MPLS VC labels: local 18, remote 16
Group ID: local 200, remote 200
MTU: local 1500, remote 1500
Remote interface description:
Sequencing: receive disabled, send disabled
VC statistics:
packet totals: receive 0, send 0
byte totals: receive 0, send 0
packet drops: receive 0, send 0
…..cont…for all VPLS PWs sharing a common VC ID
PE-1
MPLS
Network
PE-2
PE-3Use common AToM “show” commands
- 29. 292929© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Architecture:
Characteristics - Direct Attachment (Flat)
Overview:
• Okay for small customer implementations
• Simple provisioning
• Full mesh of directed LDP sessions required between participating
PEs
• VLAN and Port level support (no QinQ)
Drawbacks:
• No hierarchical scalability
• Scaling issues:
PE packet replication
Full mesh causes classic - N*(N-1) / 2 concerns
- 30. 303030© 2004 Cisco Systems, Inc. All rights reserved.
VPLS & H-VPLS
• H-VPLS
Two Tier Hierarchy
MPLS or Ethernet Edge
MPLS Core
• VPLS
Single Flat Hierarchy
MPLS to the Edge192.168.11.1/24
192.168.11.2/24
192.168.11.12/24
192.168.11.11/24
192.168.11.25/24
MPLS EdgeMPLS Core
PW
n-PE
PE-POP
PE-rs
u-PE
PE-CLE
MTU-s
u-PE
PE-CLE
MTU-s
n-PE
PE-POP
PE-rsGE
Ethernet Edge
Point-to-Point or Ring
VPLS
H-VPLS
- 31. 313131© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Architecture:
Architecture – Ethernet Edge H-VPLS
3550s 7600s
MPLS Network
CE1
CE2a
Full Mesh LDP
u-PE
CE4
CE2b
802.3
101
102
VPLS functioning
between
participating PEs
400
401
Customer applied
VLAN Tags for
WG isolation (CE-
VLAN)
Data SA401 DA
Ether
Type
SP applied VLAN
Tags for Customer
isolation (PE-VLAN)
SA102 DA
Ether
Type
Dot1q Tunneling
.1Q QinQ
n-PE n-PE
n-PE
- 32. 323232© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Architecture:
Architecture – Ethernet Edge H-VPLS
3550s 7600s
SP applied VLAN
Tags for Customer
isolation (PE-VLAN)
MPLS Network
CE1
CE2a
n-PE-
PoP
Full Mesh LDP
u-PE n-PE
n-PE
CE4
CE2b
802.3
101
102
VPLS functioning
between
participating PEs
400
401
Customer applied
VLAN Tags for
WG isolation (CE-
VLAN)
Data SA401 DA
Ether
Type 25 47
PW – VC Label is
imposed at VSI
.1Q QinQ
- 33. 333333© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Architecture:
Architecture – MPLS Edge H-VPLS
MPLS Network
CE1
CE2a
PE-PoP
Full Mesh LDP
PE-CLE
AToM
or
L2TPv3
L2VPN
Router
CE4
CE2b
802.3
VPLS functioning
between
participating PEs
400
401
Customer applied
VLAN Tags for WG
isolation (CE-VLAN)
PSN
SP applied VC-Label
& Tunnel LSP Label
7600s
.1Q
PE-PoP
PE-PoP
SAData 401 DAEther
Type
1000 33
- 34. 343434© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Architecture:
Architecture – MPLS Edge H-VPLS
MPLS Network
CE1
CE2a
Full Mesh LDP
u-PE
n-PE
AToM
or
L2TPv3
L2VPN
Router
CE4
CE2b
802.3
VPLS functioning
between
participating PEs
400
401
Customer applied
VLAN Tags for WG
isolation (CE-VLAN)
SA DA
Ether
Type
PSN
AToM or L2TPv3
Header is now
removed.
PW – VC & Tunnel
labels are imposed
25 47
7600s
.1Q
n-PE n-PE
Data 401
- 35. 353535© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Architecture:
Characteristics – H-VPLS
Benefits:
• Best for larger scale deployment
• Reduction in packet replication and signaling overhead on PEs
• Full mesh for core tier (Hub) only
• Attachment VCs “virtual switch ports” effected through Layer 2
tunneling mechanisms (AToM, L2TPv3, QinQ)
• Expansion affects new nodes only (no re-configuring existing
PEs)
Drawbacks:
• More complicated provisioning
• MPLS Edge H-VPLS requires MPLS to u-PE
Complex operational support
Complex network design
Expensive Hardware support
- 36. 363636© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Deployment
Scenarios
Presentation_ID 363636© 2003 Cisco Systems, Inc. All rights reserved.
- 37. 373737© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Deployment:
SMB Connectivity
• New Layer 2 multipoint service offering
• Enterprise maintains routing and administrative autonomy
• Layer 3 protocol independence
• Full mesh between customer sites
MPLS Network
SFO-PE NYC-PE
CE-SITE2CE-SITE1
DFW-PE
CE-SITE3
- 38. 383838© 2004 Cisco Systems, Inc. All rights reserved.
VPLS Deployment:
Layer 2 Multipoint Transit Provider
Transit Provider
Network
SP-A SP-A
CE-1
CE-1
VPLS
LDP
FRoMPLS
• SP-As PEs appear back to back and packets are forwarded
• No LDP or Route exchange with transit provider
• Provides optimal traffic path to carrier’s PE
- 39. 393939© 2004 Cisco Systems, Inc. All rights reserved.
Summary
Presentation_ID 393939© 2003 Cisco Systems, Inc. All rights reserved.
- 40. 404040© 2004 Cisco Systems, Inc. All rights reserved.
Phase I – Architecture Support
Service Definitions Supported
Topology 1: L2VPN, Transparent LAN Service (Non-distributed PE)
MPLS
Network
CE1
PE-PoP
Full Mesh LDP
PE-PoP
dot1Q
7600s
802.3
CE4
Topology 2: L2VPN, Ethernet Virtual Circuit Service (Distributed PE)
MPLS
Network
CE1
PE-PoP
Full Mesh LDP
PE-CLE PE-PoP
QinQ
7600s3550s
.1Q
CE4
802.3
101
- 41. 414141© 2004 Cisco Systems, Inc. All rights reserved.
Ethernet Standards Development
IETF VPLSIEEE 802.1ad IEEE 802.1adMEF UNI
MEF E-LMI
MEF UNI
MEF E-LMI
MEF Ethernet Service Defintion
ITU-T Q3/SG13 L2PING & L2TRACE
MPLSEthernet Ethernet
CE CE
• IETF VPLS is a part of an overall Ethernet solution
IEEE 802.1ad Provider Bridges
ITU SG12 Ethernet OAM – L2TRACE & L2PING
MEF Ethernet E-LMI, E-UNI and Ethernet Service Definitions
- 42. 424242© 2004 Cisco Systems, Inc. All rights reserved.
Cisco VPLS Summary
CE
VPLSVPLS
Over Service ProviderOver Service Provider
NetworkNetwork
CE
Metro
A
Metro
D
Metro F
PE
PE
PE
PE
PE
C7600
C7600
C7600
C7600
C7600
CE
CE
CE
CE
Metro E
Metro B
• Fills L2 multipoint VPN gap between customer requirements and existing L2VPN point-
to-point technologies
• Expands the service portfolio to for existing MPLS networks
• Has wide-industry support for LDP-based VPLS implementations & wide coordination
between Ethernet focused standards bodies (IETF, IEEE, MEF, ITU)
• Cisco is actively driving development of standards and liaising between Forum’s to
ensure the rapid development of standards and interoperable solutions
Metro C
- 43. 434343© 2004 Cisco Systems, Inc. All rights reserved.
World-Class Customer Support
• 2,000 Technical Support
Professionals
• 1,600+ Support Engineers* (400
CCIEs) on 24x7
• 630+ Depots and 10,000 Field
Engineers in 120 countries*
• 85,000+ Assisted cases/ month
• 321,000 Customer issues
resolved/month
• 75% TAC Web resolved: of 25%
assisted, 64% were web-initiated
• 98% Material availability
• 92% Orders submitted online, 55%
“no touch”
• 60% Change orders submitted
online
* Internal & Outsource Partners
Accelerate customer success with Cisco through
innovative services and world-class people, partners,
process, and tools.
Accelerate customer success with Cisco through
innovative services and world-class people, partners,
process, and tools.
Customer Advocacy MissionCustomer Advocacy Mission
- 44. 444444© 2004 Cisco Systems, Inc. All rights reserved.
Cisco leads in the MPLS Market
Americas EMEA AsiaPac/Japan
EBT
Korea
Telecom
Some 200 Customers (MPLS Core & L2/L3 Edge)
- 45. 454545© 2004 Cisco Systems, Inc. All rights reserved.
Faster
A flexible QoS framework
to enable migration to a
converged infrastructure
FasterFaster
A flexible QoS frameworkA flexible QoS framework
to enable migration to ato enable migration to a
converged infrastructureconverged infrastructure
Lasting
Extensibility to different
transports with standards-
based open architecture
for investment protection
LastingLasting
Extensibility to differentExtensibility to different
transports with standardstransports with standards--
based open architecturebased open architecture
for investment protectionfor investment protection
Smarter
The foundation for more
services and more
revenues
SmarterSmarter
The foundation for moreThe foundation for more
services and moreservices and more
revenuesrevenues
Cisco IOS MPLS
454545
Enabling
Innovative
Services
Enabling
Innovative
Services