lambdaunite v1.1 3mar05.ppt

LambdaUnite™ MultiService Switch (MSS)

Next Generation High Speed Optical Switch

for Multi Service Applications

Lucent Technologies - Proprietary2

Presentation Outline

Product Characterization and Positioning

Value Propositions

Product Overview Architecture

Network Applications

Take Home Points


WBDACS

IP ServicesSwitch

ATMSwitch

Trunk GW

TransparentServices

BandwidthServices

Data overSONET/SDH

Trans-Oceanic-Long Haul-Metro

NetworksMSS

Far More Functionality than a Traffic

‘Director’!

Far More Functionality than a Traffic

‘Director’!

Next Generation Optical NetworksIntroducing the concept of a Multi-Service Switch

Simplifying operations and reducing cost Unifies global operations through SONET and SDH

gateways, between Ring and Mesh architectures, Trans-Oceanic Gateway functionalities and through termination of multi-vendor rings

Manages traffic and services across multiple network domains

Modular growth with planned scalability to Terabits lets you “right size” your network

Footprint and power consumption savings through NE consolidation

Best-in-class networking utilization and capabilities

High capacity interfaces of up to 40G for efficient multiplexing

Full range of ring and mesh protection and restoration options

Delivering new revenue opportunities Increased service differentiation

Managed Bandwidth

“Service ready” node with multitude of low speed & data interfaces


155M

622M

2.5G

10G

40G

Line Rate

Bandwidth handled per Shelf

2F ADM

4F ADM 2x4F

Multi Ring Terminal

4/4 DXCmultiple bays

LambdaUnite™ MSS155Mbps - 40Gbps, GigE, 10GigE

160G to 320G to 640G (320G = 6144 x 6144 STS1 or 2048 x 2048 VC4)

60Gb 120Gb 640Gb0 1.28Tb

LambdaUnite™ MSS Application Sweet Spot


Metro Networks Backbone Networks

LambdaUnite MSS

Metropolis® DMXMetropolis® DMX

Metropolis® ADM CompactMetropolis® ADM Compact

Metropolis® ADM Universal

Metropolis® ADM Universal

WaveStar® ADM 16/1WaveStar® ADM 16/1

Metropolis AMUMetropolis AMU

Metropolis® EONMetropolis® EONWaveStar® OLS 400G/800G/1.6T

WaveStar® OLS 400G/800G/1.6T

LambdaXtremeTM Transport10G / 40G

LambdaXtremeTM Transport10G / 40G

LambdaUnite MSSEmbedding in the Lucent Portfolio

pWDMpWDM

Metropolis® WSMMetropolis® WSM

Metropolis AM /AMSMetropolis AM /AMS




Value Propositions



Feature Rollout Plan

Take Home Points


LambdaUnite™ MSSIntroduction and Value Proposition “At a Glance” (continue)

Highest cost efficiency One NE fits all (TM, ADM, DXC, Multi Ring Terminal) Multiple 2.5G/10G/40G direct ring closure via a wide

spectrum of optical interfaces Minimum floor space consumption

Interface density and capacity Highest capacity and density solution on market (320G now –

640G in Release 4.1) SDH/SONET interfaces ranging from STM-1/OC-3 to STM-

256/OC-768

Flexible system architecture Flexible SONET/SDH configurations Innovative and highly flexible any interface in any slot architecture No connectivity restrictions Integrated DWDM/PWDM colored interfaces to increase scalability

Data Interfaces 1GbE and 10GbE Up to 128 x 1GbE (4 ports per card) Up to 32 x 10GbE (1 port per card)

Global TDM BasedMulti-Service Product

Global TDM BasedMulti-Service Product


LambdaUnite™ MSSIntroduction and Value Proposition “At a Glance”

Applications Enabler for new and distinguishing services 10G next generation multi-ring terminal system in Global

Backbone, Regional / Metro Core / Hub Node and Trans-Oceanic applications

Global multi-ring terminal with STS-1/VC-4 switching granularity

– Between single 10G 2F ADM and a multi-shelf XC scaling

to Terabits 40G backbone feeder

– Provides sub-lambda grooming– Provides highest utilization per fiber

Future Ready Addresses today’s and tomorrow’s network and

service requirements ONNS (Optical Network Navigator System) Future support of Transparency Services

Full Suite of Protection Schemes Simultaneous support of both mesh and ring (MS-

SPRing/BLSR, SNCP/UPSR and MS/Linear Line Protection) topologies

Pre-emptive protection access

Intelligent Optical Network Support

Wavelength managementOptical restoration (mesh restoration)Future support of dynamic self-aware services

World’s Most Widely DeployedOptical Cross-Connect with

Highest Market ShareFour Quarters Running!

42.9%OXC Market Share(Dell’Oro Group)

World’s Most Widely DeployedOptical Cross-Connect with

Highest Market ShareFour Quarters Running!

42.9%OXC Market Share(Dell’Oro Group)


LambdaUnite™ MSSThe 160Gb/s Version “At a Glance”

Availability Release 4.0

Software Same system software load as with full version network/element management via Optical

Management System (OMS) Features

All existing and Release 4 features Common service features as with large node

Core Hardware Same DUR/2 Shelf to enable upgrade to 320Gb/s

and 640Gb/s systems Same CTL/2 ONNS™ enabled System Controller New STS-1/VC-4 160Gb/s fully non-blocking

Matrix with the same capabilities of existing 320Gb/s and 640Gb/s matrices

Redundant matrix core and controller Physical Architecture

Same flexible any interface in any slot architecture (except slots in lower shelf)

Same flexibility in provisioning protection port pairs

Transmission Interfaces Supports current interface packs as well as

Release 4 double density interface packs Support for 40Gb/s interface SONET and SDH provisioning on a per port basis

Network Architecture Supports current ring protection features as well

as ONNS™

Interface Slots in Lower Shelf Are Unused– cover with Filler Blanks

160Gb/sMatrix

16Interface

Slots

SystemControllers

(CTL/2)

DUR2Subrack

Upgradeable to320Gb/s and 640Gb/s

Versions!

Upgradeable to320Gb/s and 640Gb/s

Versions!

Work

ing

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ion u

nit

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nit

Work

ing

unit

* *


LambdaUnite™ MSS offers a very compact design with in service capacity upgrades from 160Gb/s to 1.28Tb/s within same footprint!

LambdaUnite™ MSSInvestment Protection With In-Service Upgrade

Options

160Gb/s Matrix Configuration

Single Density Traffic Ports



* *





Replace XC160 with

XC320


Double Density Traffic Ports



* *

Replace XC160 with

XC640 + Double

Density I/O Packs

1.28Tb/s Matrix Configuration


1.28Tb/s Matrix Configuration


Replace XC320 with XC1280 +

Controller & Matrix Inter-

Connect Packs + Second Shelf + Double

Density I/O Packs


LambdaUnite™ MSS160Gb/s Version – Networking Value Proposition

4Fiber OC-192 BLSR/4Fiber STM-64 MS-SPRing

160Gb/s

160Gb/s

320Gb/s

2Fiber OC-192 BLSR/2Fiber STM-64 MS-SPRing

160Gb/s

160Gb/s

160Gb/s

Multiple2Fiber OC-48 BLSR/

2Fiber STM-16 MS-SPRing

160Gb/s

160Gb/s

160Gb/s

320Gb/s

Positioning Metro 2Fiber 2.5G and 2/4Fiber 10G ADM market space (current portfolio gap!) Position smaller 160Gb/s capacity with upgrade option as a more cost effective

solution for markets where the current appetite for large capacity is poor to gain initial market share

Value Proposition More cost effective solution than 320Gb/s and 640Gb/s configurations with lower

initial start-up cost for low to medium capacity requirements today Simple and In-Service expansion and upgrade from 160Gb/s configuration to 320Gb/s

or 640Gb/s configurations Reduce Capital Expenditure with common spares pool for Hub node and Metro nodes Reduce Operational Expenditure with common operations workforce for entire

network


LambdaUnite™ MSS160Gb/s Version – Network Expansion/Evolution

Upgrade to2Fiber OC-768 BLSR/

2Fiber STM-256 MS-SPRing160Gb/s

320Gb/s

Upgrade to4Fiber OC-192 BLSR/

4Fiber STM-64 MS-SPRing160Gb/s160Gb/s

Multiple2Fiber OC-48 BLSR/


160Gb/s

160Gb/s

160Gb/s2Fiber OC-768 BLSR/


640Gb/s

320Gb/s

160Gb/s 320Gb/s

Upgrade(320Gb/s to

640Gb/s)

Upgrade(320Gb/s to

640Gb/s)

Upgrade(160Gb/s to

320Gb/s)

Upgrade(160Gb/s to

320Gb/s)

320Gb/sUpgrade

(160Gb/s to320Gb/s)

Upgrade(160Gb/s to

320Gb/s)

320Gb/s

Future Proof Value Proposition 40Gb/s capable network Option to expand 160Gb/s configuration to 320Gb/s and 640Gb/s in line with actual

traffic growth in the future Future growth/evolution path from 160Gb/s applications up to Terabit capacity ONNS™ Mesh enabled network in Metro space not currently supported by today’s

Metro products Cost effective wavelength/transparency services enabled in Metro space currently

only supported by Metro DWDM products


LambdaUnite™ MSS Outrageous Savings Through NE Consolidation

CentralOffice

4 x 10GAggregation

Rings

16 x 2.5GAggregation

Rings

CentralOffice

16 x 2.5GAggregation

Rings

The Traditional Central Office The LambdaUnite Central Office

10G DWDM Backbone

4 x 10GAggregation

Rings

4/4 DXC

Savings:Floor Space (>80%)

Equipment Cost (40-60%)Power (>80%)Kms of Cabling

8 x 10GBB

Feeder ADMs

10G DWDM Backbone

8 x 10GBB

Feeder ADMs


LambdaUnite™ MSS

LambdaUnite™ MSS

LambdaUnite™ MSSEnhancing Your Bottom Line

Assume: 320Gb/s Cross-Connect Capacity STS-1/AU-4 level traffic grooming STM-16/OC-48 and STM-1/OC-3 to Line and Traffic Drop interfaces respectively No port protection

Assume: 320Gb/s Cross-Connect Capacity STS-1/AU-4 level traffic grooming STM-16/OC-48 and STM-1/OC-3 to Line and Traffic Drop interfaces respectively No port protection

320Gb/s Cross-Connect Capacity320Gb/s Cross-Connect Capacity

4 x [40Gb/s Line Capacity + 40Gb/s Drop Capacity]4 x [40Gb/s Line Capacity + 40Gb/s Drop Capacity]

4 x [16 x STM-16/OC-48 Line Capacity + 256 x STM-1/OC-3 Drop Capacity]4 x [16 x STM-16/OC-48 Line Capacity + 256 x STM-1/OC-3 Drop Capacity]

20 Racks/Bay

s

20 Racks/Bay

s

2 Racks/Ba

ys

2 Racks/Ba

ys

Present Mode of OperationsPresent Mode of Operations


LambdaUnite™ MSSEnables Global Core Networking

OC-NBLSR

STM-NMS-SPRing

STM-NMS-SPRing

STM-NMS-SPRing

Trans-Oceanic Ring

Mesh Network

Trans-Oceanic Ring

Mesh Network

SONET APPLICATIONSSONET APPLICATIONS

TRANS-OCEANIC APPLICATIONSTRANS-OCEANIC APPLICATIONS

SDH APPLICATIONSSDH APPLICATIONS

Mesh Network

STM-N /OC-N

1+1 MSP

MeshNetwork

STM-N /OC-N

1+1 MSP


LambdaUnite™ MSS Simplification of Operations by Three Ways

The same system supports different applications in the various parts of the network – reducing training and sparing

The same system supports different applications in the various parts of the network – reducing training and sparing

In-service upgrades Remote software downloads Simple switch pack exchange and additional double density I/O packs reduces

outage problems and eliminates bandwidth upgrade time and expense

In-service upgrades Remote software downloads Simple switch pack exchange and additional double density I/O packs reduces

outage problems and eliminates bandwidth upgrade time and expense

In-built “Self-Aware” capabilities Significantly reduced provisioning costs Automatic restoration minimizes revenue loss caused by lengthy service

interruptions Auto discovery

In-built “Self-Aware” capabilities Significantly reduced provisioning costs Automatic restoration minimizes revenue loss caused by lengthy service

interruptions Auto discovery

DWDM

DWDM

DWDM

DWDM

DWDM

320Gb/s

320Gb/s

160Gb/s

160Gb/s

160Gb/s640Gb/s

SLTE

640Gb/sSLTE

TRANS-OCEANICTRANS-OCEANIC BACKHAUL/CORE TRANSPORTBACKHAUL/CORE TRANSPORT METROMETRO ACCESSACCESS

DWDM


Mesh Networking Advantages

Capital cost reduction due to reduction in service network equipment and transport equipment when compared to SONET/SDH rings

Major reduction in power and space requirements

Reduced over-provisioning of network links

LambdaUnite™ MSS ONNS™ Enabled CAPEX Reductions Via Mesh Restoration

Shared Protection

Sub-2

Sub-3

Sub-1Ring vs. Mesh Cost Comparison

Cost$ 15% 20%

OpticalRing

SDH/SONETRing

OpticalMesh

Mesh Savings of up to 20% over

Traditional Rings in this kind of application

Mesh Savings of up to 20% over

Traditional Rings in this kind of application


Network agility allows for significant operational

savings

Network Nodes obtain service

parameters from Navis™ OMS and act as a single virtual switch to route traffic effectively across the network

Node Nodes auto-discover

network resources and support protection/restoration options

Client Nodes accept service

requests from intelligent clients that request connections as warranted by network conditions

Intelligent Optical Network

Navis™ Optical Management SystemNavis™ Optical Management System

Navis™ Optical Element Management

System

Navis™ Optical Element Management

SystemClientClient

NodeNode

LambdaUnite™ MSS ONNS™ Simplifies Operations Via Intelligent Optical

Network

ONNS™ - Intelligence Throughout the NetworkONNS™ - Intelligence Throughout the Network

NetworkNavigator

NetworkNetwork


ASTN/GMPLS simplifies operations by: Supporting automatic engineering, provisioning, testing and

verification of connections Eliminating dozens of manual steps to establish end-to-end

connection

Multiple steps are collapsed into one

Significantly reduces Service Provisioning

Time

LambdaUnite™ MSSONNS™ Enabled Fast Provisioning Via Distributed

Intelligence




Value Propositions



Take Home Points


LambdaUniteTM MSS shelf

Multiple

2F 2.5G ADM

2F 10G ADM

4F 10G ADM

2F 40G ADM

4F 40G ADM

Multi Ring Terminal

Optical Switch

32

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ch

& C

loc

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p)

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1G

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Rx

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10

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x

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x

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2M R

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(w

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C (

p)

LambdaUnite™ MSS Flexible System Architecture (continue..)

Multi Ring Terminal

multiple ADM or TM

GMPLSOEO Switch


10G I/O Slot

160G/320G/640G 1+1

10G

I/O

Slo

t

10G I/O Slot

10G I/O Slot

10G I/O Slot

10G I/O Slot

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

10G

I/O

Slo

t

40G

10G I/O Slot

10G I/O Slot

10G I/O Slot

10G I/O Slot

40G

1 x 10G

10G I/O Slot1 x 10G

10G I/O Slot

10G I/O Slot

10G I/O Slot

10G I/O Slot

10G I/O Slot4 x 2.5G

10G I/O Slot4 x 2.5G

BLSR / MS-Spring, LIN 1+1 / MSP per portUPSR / SNCP per path

4 x

GB

E

10G

I/O

Slo

t10

GB

E

Symmetrical matrix concept without blocking and slot provisioning restrictions

LambdaUnite™ MSS Flexible System Architecture

Flexible System Architecture Any interface in any slot

No connectivity restrictions

No blocking

Any mix and number of 2F/4F 40G, 10G

2F 2.5G, 622M, 155M rings

and linear links

Any mix and number of protection (incl. transoceanic)

One SW/HW load for all configurations

TM, ADM, Multi Ring Terminal

Flexible SONET/SDH Configuration


950 mm

37.4 in

500 mm / 19.7 in

545 mm / 21.5 in

Cooling Unit

Fiber Tray

User Panel

32

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witc

h &

Clo

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p)

32

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LambdaUnite MSSPhysical Design

Double height single shelf All configurations

TM

ADM

Multi Ring Terminal

320G full non blocking

2048 x 2048 VC-4

6144 x 6144 STS-1

32 Interface Slots

Two systems per bay(7ft/2,2m bay)

System Upgrade Shelf prepared for 640G

20G per slot


LambdaUnite™ MSS Interface Density and Capacity

SDH/SONET Interfaces 40G 1 port/pack, 4 slots wide Up to 8 x 40G

10G 1 port/pack, 1 slot wide Up to 32 x 10G

10G 2 port/pack, 1 slot wide Up to 64 x 10G

10G pWDM 1 ports/pack, 1 slot wide Up to 32 x 10G

2.5G 4 ports/pack, 1 slot wide Up to 128 x 2.5G

2.5G 8 ports/pack, 1 slot wide Up to 256 x 2.5G

2.5G pWDM 2 ports/pack, 1 slot wide Up to 64 x 2.5G

622M 16 ports/pack, 1 slot wide Up to 512 x 622M

155M 16 ports/pack, 1 slot wide Up to 512 x 155M

155M el. 8 ports/pack, 1 slot wide Up to 128 x 155M

DS3 36 port/pack, 1 slot wide Up to 288 x 45M (1+1)

Data Interfaces 1G Ethernet 4 ports/pack, 1 slot wide Up to 128 x 1G Ethernet

10G Ethernet 1 port/pack, 1 slot wide Up to 32 x 10G Ethernet

Transparent interface 2.5G 3 port/pack, 1 slot wide Up to 96 x 2.5G

Any combination of interfaces and protection schemes possible


UNITE160G

• 8 x 155M el. (1+1)• 8 x 1GBE • 16 x 155M (1+1)• 16 x 622M (1+1)and/or UPSR/SNCP

10G 2x2F

UNITE320G/640G

160G Metro Core with low startup cost pluggable interfaces improve scalability and low

number port mix

Upgrade when needed to 320G/640G capacity exchange Switch Packs

Cooling Unit

Fiber Tray

User Panel

16

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10

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sw

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Clo

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(p

)

32

0G/6

40G

sw

itc

h &

Clo

ck

(w

)

Switch/Timing Complex

2.5G Ports

155M Ports

622M Ports

40G Ports

10G Ports

1G Ethernet Ports

Miscellaneous

Control Complex

LambdaUnite™ MSS scalable 160G low initial startup cost

62

2M R

x/T

x (

16

po

rt)

15

5M R

x/T

x (

16

po

rt)

15

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x/T

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55M

Rx

/Tx

(8

po

rt)

4x2F 2G5

• 4 x 2G5 (1:1 or 1+1)

160G allows access to the upper row only 160G/320G allow either

single density packs in two neighbor slots or one double density pack next slot empty

640G allows double density packs in each slot


UNITE320G

• 4 x 2.5G 1+1• 8 x 1GBE• 8 x 2.5G (1+1)• 16 x 622M • 16 x155M

40G 2x2F

UNITE640G

4x2F 10G4F 10G

Start with 320G Multi Ring Terminal R3 single density and from R4 on with DD

pluggable interfacesUpgrade when needed to 640G capacity exchange Switch Packs & add high density I/Os

Cooling Unit

Fiber Tray

User Panel

32

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k (

p)

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G R

X/T

X (

1 p

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22M

Rx

/Tx

(1

6 p

ort

)1

55M

Rx

/Tx

(1

6 p

ort

)

2.5

G R

x/T

x (

4 p

ort

)

10

G R

x/T

x (

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Rx/

Tx

(1

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rt)

10

G R

x/T

x (

1 p

ort

)1

0G

Rx/

Tx

(1

po

rt)

10

G R

x/T

x (

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ort

)1

0G

Rx/

Tx

(2

po

rt)

10

G R

x/T

x (

2 p

ort

)1

0G

Rx/

Tx

(2

po

rt)

2.5

G R

x/T

x (

4 p

ort

)

2.5

G R

x/T

x (

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ort

)2

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Rx/

Tx

(8

po

rt)

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BE

Rx

/Tx

(4 p

ort

)1

GB

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x/T

x (4

po

rt)

40

G R

X/T

X (

1 p

ort

)

40

G R

X/T

X (

1 p

ort

)

40

G R

X/T

X (

1 p

ort

)

64

0G s

wit

ch

& C

loc

k (

p)

64

0G s

wit

ch

& C

loc

k (

w)

Switch/Timing Complex

2.5G Ports

155M Ports

622M Ports

40G Ports

10G Ports

1G Ethernet Ports

Miscellaneous

Control Complex

LambdaUnite™ MSS 320G to 640G growth scenario

10

G R

x/T

x (

2 p

ort

)1

0G

Rx/

Tx

(2

po

rt)

10

G R

x/T

x (

2 p

ort

)1

0G

Rx/

Tx

(2

po

rt)

2.5

G R

x/T

x (

8 p

ort

)2

.5G

Rx/

Tx

(8

po

rt)

2.5

G R

x/T

x (

8 p

ort

)2

.5G

Rx/

Tx

(8

po

rt)

2x2F 10G

8x2F 2G5

4x2F 10G

16x2F 2G5


LambdaUnite™ MSS 40Gb/s Transport

Up to 24% hardware cost advantage compared to 4 x 10G alternatives

Deployment of 10G in metro and core networks will drive adoption of 40G in regional and backbone networks

Effective alternative to Metro DWDM for fiber relief

“Bigger Pipes” for more efficient fill

Why invest in a Next GenerationTransport Solution that preventsGrowth up to 40Gb/s when needed?


LambdaUnite™ MSS Pluggable Optical Transponders

Value Proposition of pluggable Concept

highly scalable, pay as you grow only equip the ports that are needed for

services > lowers initial startup cost

add ports hot pluggable in-service > pay as you grow support

highly flexible mix of interface types per pack

> saves cost for low port number

configurations

minimize spare and maintenance stock one base board for all interface ranges

if one port of a multi port pack fails just exchange that single port and not the entire circuit pack

Low Initial Start-up Cost through Plugable Optics


Plugable Transponder Options Each host cards can host any kind of Plugable

Interface type: Traditional Optical Interfaces:

One host card for 10G transponder family (2 ports; 600m and 40km)

One host card for 2.5G (8 ports; 2km, 40km and 80km)

One host card for 155M and 622M transponder family (8 ports; 15km and 40km)

GFP Transparent Optical Interfaces: One host card for 2.5G GFP transponder

family (3 ports)

2 ports variant for:• 10Gb/s

8 ports variant for• 2.5Gb/s• 622Mb/s / 155Mb/s

3/6 ports transparent host board (future) 155M transparent (6 ports) 622M transparent (6 ports)

LambdaUnite™ MSS Plugable Optical Transponders


Sub-rack Configuration (LO-XC) LO-XC is a 15Gb adjunct matrix

288 x 288 LO-VC3 / 6048 x 6048 LO-VC12 / 8064 x 8064 VT1.5 per LO-XC

SDH SNC/I and SNC/N protection for LO-VC3/VC12

SONET UPSR protection for VT1.5

Combination of LO-SNCP with 1+1/1:1/1:N MSP/APS

LambdaUnite® MSS integrates the functionality of hub ADMs plus LO 4/1 DXC for grooming of LO traffic and feeding into the backbone network.

LambdaUnite® MSS with 160G (CTL/3T) core and 15Gb LOXC (1+1 protected)

Cooling Unit

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1 96

1281

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15G = 96 STM -1LO XC (15G)

96 STM-1

HO XC160G = 1024 STM-1

(320G = 2048 STM-1)

UniversalPort


Sub-rack Configuration (LO-XC)

LambdaUnite® MSS with 160G (CTL/3T) core and 15Gb LOXC (1+1 protected)

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it/s

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XC160 Core: Slot (36)/37 and (38)/39

XC320 Core: Slot (3)/4 and (18)/19

Recommended--> upgrade to 40G LO via SD pack(4slots) Slot 1,2,3,4 and 16,17,18,19

Slot (16)/17 and (18)/19

Slot (36)/37 and (38)/39

XC640 Core: Slot 4 and 19 Recommended

--> upgrade to 40G LO via DD pack(2slots) Slot 3,4 and 18,19

Slot 17 and 19

Slot 37 and 39




Value Propositions



Take Home Points


10G -services (unprotected)

LambdaUnite™ MSS 10G OEO Core Switch Application

Solution Values Full flexible 160/320/640G OEO switch Highest density Minimal floor space Lowest cost

LambdaUnite MSS Features Full non blocking connectivity on all

rates from VC-4/STS-1 to VC-4-64c/STS-192c

Full flexible grooming capabilities for service signals from

STM-1/OC-3 to STM-64/OC-192 Colored optics for 10G

WaveStar® OLS 1.6T Metropolis EON

Full set of protections schemes MS-Spring/BLSR 1+1, 1:1 MSP/1+1 Lin SNCP/UPSR restoration

N x 10G DWDM links

Non groomed10G links

10G -services (unprotected)

10G/ 2.5G/ 622M/ 155MSDH/SONET services

(protected & unprotected)

Optical Transponder

WaveStar® OLS 1.6T


OC-768/192/48BLSR UPSR

STM-256/64/16 MS-SPRING

SNCP

Submarine DWDM

Service Interface B

Service Interface A

3 times across the ocean with regular MS-Spring protocol

4F STM-64Transoceanic

Protocol

1 time across the ocean with MS-Spring transoceanic protocol

Solution Values• Maximum capacity & switching flexibility• Global design• Minimal footprint, power consumption• Minimal equipment & cabling effort

LambdaUnite MSS Features• 10G 4F Transoceanic MS-Spring

with span and ring protection• Transport of SONET through SDH network• Multiple ring closure• Single sub-rack design with 320G

switching capacity

SDH

SONET

Per port provisioning of SONET or SDH

end-to-end connectivity

LambdaUnite™ MSS10G Transoceanic Application


Co

re

Metro-Access

Metro-Core

LO-SNC/P RingSTM-16

Metro - Feeder

STM-16LO-SNC/P Ring

Hub Office

STM-1/4LO-SNC/P

Ring

STM-1/4E/FE

STM-1 .. 641/10 GbE

POP/CO

PBX

End Office

IPSvcs

Switch

HO-SNC/ MS-SPRing

STM-64

PBX

STM-16GbE

E1, E3DS1, DS3STM-1E/FES(H)DSL

End Office

Ring or Meshscalable from

STM-16 to STM-256

Managed DWDMPassive DWDM

E1, E3 DS1, DS3STM-1/4E/FE/GbE

PBX

E1, E3DS1, DS3STM-1E/FES(H)DSL

E1, E3DS3STM-1/4E/FE/GbE

Nav

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MADM

L2

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L2

Metro AM

L2

ADM 16/1

L2

MADM

L2

MADM C

L2

MADM C

L2

Metro AM

L2

TDM 10G

DACS4/4/1

EON EONNote: MADM = Metropolis® ADM MultiService MuxMADM C = Metropolis® ADM MultiService Mux CompactMetro AM : Metropolis AM

Metro AM

L2

LambdaUnite™ MSS Metro Network Applications

MADM

L2

GbE

GbEGbE

STM-16GbE

Benefits Highest density SDH solution Efficient Ethernet Transport IP Service Aggregation


10G2F/4F

MS-Spring/BLSRSNCP/UPSR

10G/ 2.5G/ 622MSNCP/UPSR Rings

from different vendorse.g. Marconi, Nortel

Separate LANs and multi-node stack for other vendor DCN access

LambdaUnite™ MSS 10G Ring based Metro Application

Solution Values Multi vendor interworking

Massive reduction of Equipment & Cabling

Footprint

Power consumption

Costs

LambdaUnite MSS Features Single sub-rack design

Multiple ring closure 2F/4F MS-Spring/BLSR

SNCP/UPSR

Multi-vendor DCN interworking

Multi-node stack for other vendor DCN access

Multiple LAN interfaces


10G2F/4F MS-Spring/BLSR

SNCP/UPSR


SNCP/UPSR

LambdaUnite™ MSS 10G Overlay Application

Solution Values Massive reduction of

Equipment & Cabling

Footprint

Power consumption

Costs

Increase of Switching flexibility

Reliability

LambdaUnite MSS Features Single sub-rack design

Multiple ring closure

2F/4F MS-Spring/BLSR

SNCP/UPSR

Compatible optics for DWDM


LambdaUnite™ MSS10G Cross Connect Application


SNCP/UPSR


SNCP/UPSR


SNCP/UPSR

Solution Values Massive reduction of

Equipment & Cabling

Footprint

Power consumption

Costs

Increase of Switching flexibility

Reliability

LambdaUnite MSS Features

Single sub-rack design

Multiple ring closure

Blocking free connectivity

2F/4F MS-Spring/BLSR

SNCP/UPSR


LambdaUnite™ MSS Ethernet Transport Services

Bandwidth efficient transport of data by mapping LAN packets in multiple virtual concatenated signals

1GbE Unit

1GBE

AU-4-XvSTS-1-Xv

LAN-Side WAN-Side

Ethernet Switch

Ethernet Switch

MACMAC

MACMAC

MACMAC

MACMAC

SDH/SONETSwitch

SDH/SONETSwitch

1GBE

1GBE

1GBE

optical I/F

optical I/F

optical I/F

optical I/F

STM-N/OC-x

GFP

map

pin

g

Link Capacity Adjustment Scheme (LCAS)

Virtual concatenated signals Hitless increase/decrease of

bandwidth ITU-T G.707 implementation ITU-T standard compliant G.7041

GFP, G.7042 LCAS, G.707 Virtual Concatenation

STM-N/OC-x

Virtual Concatenation of VC-4/STS-1 with LCAS

End UserEnd User


LambdaUnite™ MSS Point-to-Point Ethernet Applications

Carrier-class Ethernet solution values:

SONET/SDH resilience and quality of service

Efficient and flexible bandwidth assignment optimized for data transport

Cost efficient usage of GBE instead of STM-n/OC-x interfaces

ITU standard Virtual concatenation and LCAS

IEEE802.3 standard Ethernet LambdaUnite™ MSS Features

1G Ethernet with flexible mapping into Virtual Concatenated VC-4-Kv, K=1 to 7 Virtual Concatenated STS-1-Kv, K=1 to

21 Link Capacity Adjustment System

(LCAS) Load Sharing Protection In-Service Bandwidth Assignment Differential Delay Compensation Up to

32ms LAN Performance Monitoring


LambdaUnite™ MSS Point-to-Point Ethernet Applications

Software upgrade for 1GBE pack to enable Ethernet switching functions

Point to multipoint switching

IEEE802.1Q VLAN trunking of multiple 1GBE streams to single 1GBE

IEEE802.1D bridge and spanning tree protocol

Inter-working with Lucent TransLAN™ Ethernet on Metropolis™ ADM family and Metropolis™ DMX

1000BASE-LX GBE pack

Flexible Ethernet applications

IEEE802.1w Rapid spanning tree protocol

Transparent tagging: VLAN transparency




Value Propositions



Take Home Points


Vendor Optical Switch Current PerspectiveAlcatel 1680 OGX Vulnerable

Calient Networks DiamondWave 256 Very VulnerableCiena CoreDirector ThreateningCisco ONS 15600 Vulnerable

Lucent TechnologiesLambdaUnite MSS Very ThreateningNortel Networks OPTera Connect DX ThreateningNortel Networks OPTera Connect HDX ThreateningSycamore NetworksSN 16000 VulnerableTellabs 6500 Transport Switch VulnerableTellium Aurora Optical Switch Very Vulnerable

http://www. .com

Vendor Optical Switch Current PerspectiveAlcatel 1680 OGX Vulnerable

Calient Networks DiamondWave 256 Very VulnerableCiena CoreDirector ThreateningCisco ONS 15600 Vulnerable

Lucent TechnologiesLambdaUnite MSS Very ThreateningNortel Networks OPTera Connect DX ThreateningNortel Networks OPTera Connect HDX ThreateningSycamore NetworksSN 16000 VulnerableTellabs 6500 Transport Switch VulnerableTellium Aurora Optical Switch Very Vulnerable

http://www... .com

Optical Switch Market Share 1Q04(Dell'Oro Group)

8%

17%

4%5%0%0%

43%

8%0%

6% 0%0%0%0% 9% 0%0%

ADVA

ALCATEL

CIENA

CISCO

CORVIS

ECI TELECOM

FUJITSU

LUCENT

MARCONI

NEC

NORTEL

ONI SYSTEMS

REDBACK

SIEMENS

SORRENTO

SYCAMORE

TELLABS

43%

Optical Switch Market Share 1Q04(Dell'Oro Group)

8%

17%

4%5%0%0%

43%

8%0%

6% 0%0%0%0% 9% 0%0%

ADVA

ALCATEL

CIENA

CISCO

CORVIS

ECI TELECOM

FUJITSU

LUCENT

MARCONI

NEC

NORTEL

ONI SYSTEMS

REDBACK

SIEMENS

SORRENTO

SYCAMORE

TELLABS

43%

LambdaUnite® Multi-Service SwitchTake Home Points

Multiple Factors Drive Excellent Customer Value Propositions

Field Proven

Feature Rich

High Equipment Density (Small Footprint)

Network Element Consolidation

High Flexibility

Scaleable Solution

Ring and Mesh

Standards Compliant

Future Proof

LambdaUnite™ MultiService Switch (MSS)

THANK YOU !

lambdaunite v1.1 3mar05.ppt

Documents