OMLT Architecture Usage-Optimize Multi Layer Transport-To Build New Generation Transport Networks NGN Robert Ksiazek

Optimized

Multi-Layer Transport

Rafal Klauzo

Sales Engineer

Central East Europe BU

Agenda

Company Overview

Market Trends

Optimized Multi-Layer

Transport

Network Management

Summary

Company Overview

250 active customers

More than

Operating in more

than 70 countries

ECI Telecom - Fast Facts

2000 employees

Over

Over 25 offices

worldwide

Development

centers in Israel,

India & China

International

service centers

located close to

our customers

50 Established

in 1961

years of experience

Over

23 service centers

Global Presence

Corporate HQ in Israel

Regional HQs in the US,

Netherlands, India and Singapore

Over 25 sales

offices in all

continents

R&D centers

Israel, China, India

Over 100 partners

in all continents

Strong position in markets

Chunghwa

Telecom

Europe 46%

India

17%

APAC

10%

FSU

16%

ME

A &

R

OW

4%

Market Segments

Wireless

Wireline

Utilities & CoC

Gov't & Defense

Data Center

Interconnect

Open Access

6

ECI Product Portfolio

Optimized

Multi-Layer

Transport

(OMLT)

Optical

Networking

NG

Access

Multiservice

Packet

Optical XDM-500 XDM-100

XDM-300

XDM

XDM-900

XDM-1000 XDM-3000

XDM-2000

BroadGate (BG)

BG-20

BG-30 BG-20C

BG-64

XDM XDM

XDM-40 XDM-1000 XDM-2000 XDM-450 XDM-500

Artemis

1P 2Pe/2A

4A

Remote Cabinets Central Office

Metro Core/

Long Haul

FTTC/N Res/Biz OSP

M82 M61 M41/V41

MSAN

M152 F152-HB

I-OLT

B-FOCuS

CPE-XDSL

ONT-GPON

OPT-Apollo

OPT9604 OPT9608 OPT9624 OPT9648 OPT9603

Artemis

1P 2Pe/2A

4A

NPT

NPT-1020 NPT-1200 NPT-1600 NPT-1600C NPT-1800

RCO500

Hi-FOCuS

MiniCAB 64V

MicroRAM 64A

RCO100 RCO300

RCO Network

Management

E-OPS

Network

Management

LightSoft

7 ECI Telecom Proprietary and Confidential

Market Trends

Market Trends Driving Transport Evolution

Low cost services to ensure revenue growth

More bandwidth at a lower price for new services

Maintein revenues from existing services

Support of existing and future services

Mixed environment (TDM and Ethernet) is here to stay for many years

Low CAPEX and OPEX while maintaining reliability of the network

Time

Ban

dw

idth

More Bandwidth

to Support Packet Based Services

ECI Telecom Proprietary and Confidential

Operators’ Dilemmas When Moving to

Packet Transport

Complexity

CAPEX and OPEX

MPLS-TP or IP/MPLS

Mixed environment

Handling remaining TDM

Native TDM or Circuit Emulation (CES)


What is OMLT?

11

Transport Network Packet Network

Connection mode Connection oriented √ Connectionless

OAM In-band OAM √ Out-of-band

Protection Switching Data plane switching √ Control plane dependency

BW efficiency Fixed Bandwidth √ Statistical multiplexing

Data Rate granularity Rigid SDH hierarchy √ Flexible data rate

QoS One class only √ QoS treatment

OMLT= Packet Efficiency + Transport Grade


MPLS-TP or IP/MPLS IP

/MP

LS

NMS

PE1 PE2 P1 P2 P3

Control plane

integrated in the

network node

■ Pro: Automated self

healing

■ Con: Requires IP

knowledge

MP

LS

-TP

NMS

PE1 PE2 P1 P2 P3

Control at the NMS

Pro: Simple maintenance

and network operation

Con: Limited IP

functionality


MPLS-TP - different view… Simplicity - Less network failures

Other 96%

Human Error 4%

Other

78%

Human

Error

22%

In transport networks human errors

account for 4% of service outage

hours

In IP networks human errors account

for 22% of service outage hours

6 times more human errors in IP networks – Using MPLS-TP will

reduce network complexity while maintaing all of the advanced

features of a packet network!

13

14

Technologies optimized for different

network segments

MPLS-TP optimized for metro networks

(aggregation and access):

Simple management and maintenance

Scalability up to thousands of network

elements

Low cost (CAPEX and OPEX)

MPLS-TP: MPLS optimized for transport networks Offres all advantages of MPLS technology without complex control plane on

thousands of network elements

MPLS-TP or IP/MPLS


MPLS-TP vs. IP/MPLS – TCO Analysis


55% lower TCO

Five-Year Cumulative TCO

Five-Year TCO Comparison of MPLS-TP

with IP/MPLS Solution for Pure Packet Traffic

Source: ACG Research , MPLS-TP TCO for Metro Transport , 2012

Optimized Multi-Layer Transport

All-Native Transport – Ultimate Flexibility

17

ETH

SDH

STM16/64

Ethernet

GigE/10GigE

TDM

Native Eth./MPLS-TP

EoSDH

Packet

Native TDM

CES

TDM


ROADM

40G/100G

Optics

OMLT Main Building Blocks

Increased Capacity

High speed 10GE data

cards

DWDM 40G/100G

MPLS TP

Bi-directional

Tunnel

MPLS-TP OAM based

on BFD

Protection

FRR

1:1 Linear protection

PW Redundancy

MC LAG

Management and OAM

Y.1731 performance monitoring

Y.1711 Tunnel OAM

E2E NMS

PM Reports

Synchronization

SyncE

1588v2

TDM Support

Native TDM (PDH, SDH)

Full LO Matrix

CES

(E1, STM-1)


OMLT NPT Portfolio

Switching Capacity

100 Gb/s

240Gb/s

320 Gb/s

NPT-1600C NPT-1600

Metro Access

Metro Aggregation

Metro Core

200 Gb/s

NPT-1200

640 Gb/s

NPT-1800

10 Gb/s NPT-1020

LightSoft

End-to-End Management

19

Access


NPT 1020

1U only

All-Native: 10G/50G centralized packet switching plus 2.5G TDM switching

Design for street cabinets (up to +70 C)

From 64Kbps up to STM-64 and 10GE

CES and native TDM support

2U Expansion unit for additional 3 IO cards

NPT 1200

2U with up to 7 traffic IO cards

All-Native: 100G/200G centralized packet switching plus 40G TDM switching

Design for street cabinets (up to +70 C)

From 64Kbps up to STM-64 and 10GE

CES and native TDM support

2U Expansion unit for additional 3 traffic IO cards

OMLT NPT Family


IT Services

FXO/FXS,

2/4 E&M, E1

RS232/RS485

(V.11/V.24/V.35)

10GE

FE/GE

FE

Tele-

Protection

Control

IEEE C37.94

PBX

Video

Surveillance

Data

NPT

Voice Interfaces

FXO/FXS

2/4W E&M

High Speed Data

FE

GE

10GE

MPLS-TP

TDM

E1, E3

STM-1

STM-4

STM-16

STM-64

Low Speed data

IEEE C37.94

V.24/RS232

V.11

V.35

V.36

Interfaces

Network

NPT - Variety of Interfaces

CES

32xE1

4xSTM-1

1xSTM-4


NPT 1600

160G Packet switching and 120G TDM

12 I/O slots

Integrated DWDM and ROADM

NPT 1800

320G/640G Packet switching and 120G TDM

24 I/O slots

High capacity shelf designed to support up to 1T packet traffic

OMLT NPT Family


OPT9624/48

For metro core and

core/regional/long-haul

24/48 universal I/O slots

1/2/4Tbps ODUk cross connect

Flexible configuration; Photonics, ODU-XC and packet switching

OPT9608

For metro edge

8 universal I/O slots

Flexible configuration: standalone WDM, In Line amplifier, packet switching

OPT9603

For metro edge

OPT9603 - 2U height with 3 universal slots

Cost effective solution for metro, in-line and Packet-OTS applications

Ideal for 100G overlay in existing networks

OMLT OPT Family


Network Management

Single unified management system

supporting full FCAPS

For all ECI transport equipment

For all transport technologies

100% GUI-based management

Point-and-click provisioning

Advanced automatic path finding

Same look & feel for all technologies

Multi-layer topology approach – multiple

task-sensitive views of the network

Shorter out-of-service periods

Unified OAM, multi-layer alarm

correlation and root cause analysis

Single point of integration to OSS

Opex reduction, efficient use of staff,

short learning curve

Unified Multi-Layer, Multi-System NMS

MP

LS

/ E

thern

et

OT

N / S

DH

O

pti

cal

Ph

ysic

al

AMP

MUX MUX

Client

Bridge

Client

1Net’s LightSoft Unified Network

Management System

ECI Telecom Proprietary and Confidential 25

Summary

Customer Metro Access Metro Core Regional / Core

OMLT applications in the network

Metro

Ring or mesh topologies

TDM and Data Aggregation

MPLS-TP, IP/MPLS

100Ghz/50Ghz spacing

2D-ROADM,

Passive filters

Regional / Core

Mesh topology

ODU-XC with ASON/WSON

GMPLS-Based

IP/MPLS

MD ROADM, High Power Amp

50Ghz spacing

Metro Access

Ring or PtP topologies

Ethernet L2

MPLS-TP

CWDM

DWDM

Passive filters

Each network

segment

demends

different

functionalities

and capacities

Mobile

Backhaul

NPT1200

OPT9624

PTSN

OPT9603 CLE/

CPE

NPT1020

OPT9624

OPT9624

NPT

OPT9608


Documents

OMLT Architecture Usage-Optimize Multi Layer Transport-To Build New Generation Transport Networks NGN Robert Ksiazek