Developing an FTTx

Ecosystem(Introduction to IEEE P1904.1 SIEPON)

Glen Kramer, P1904.1 WG ChairGlen.kramer@ieee.org

SIEPON Seminar, Prague, Czech Republic20 April 2012 1

FTTx EcosystemFTTx EcosystemWhat does it take to develop an ecosystem?

1. Common rules and principles – A flexible reference architecture and unified design principles for

addressing technical needs in a consistent way– Coordination and alignment among the relevant SDOs– One ecosystem, not many

2. Multiple cooperating classes of actors– Specification(s) promoting independent business models for optics

vendors, ASIC vendors, systems vendors, and test labs.– All classes of actors together provide a complete lifecycle of product

development and verification

3. Multiple competing actors within each class– Many optics vendors, ASIC vendors, test labs, system vendors, and

operators. – Competition within each class promotes innovation, flexibility, and cost

efficiency.

20 April 2012 SIEPON Seminar, Prague, Czech Republic 2

EPON is a Universal Access ArchitectureEPON is a Universal Access Architecture

All user types– Residential– Business– Cellular backhaul

All configurations– SFU– MDU/MTU– FTTH– FTTC/FTTN

All Data Rates– 1 Gb/s (.3ah-2004)– 10/1 Gb/s (.3av-2009)– 10/10 Gb/s (.3av-2009)

One architecture simultaneously supports all user types, all deployment configurations, and all equipment generations on the same network!

320 April 2012 SIEPON Seminar, Prague, Czech Republic

What is SIEPON?What is SIEPON? EPON’s popularity grew very quickly. Recently, many EPON-

related projects have started in various SDOs or by operators without much coordination. – ITU-T SG15 is discussing relevant specifications (OMCI for EPON)– BBF has completed TR-200: Using EPON in context of TR-101– CableLabs has DOCSIS Provisioning of EPON project (DPoETM)– Various operators or national bodies developed their own specifications

In December 2009 IEEE SA and ComSoc started the IEEE P1904.1 Service Interoperability in Ethernet Passive Optical Networks project

SIEPON is an “umbrella” standard that defines a common reference architecture to ensure that EPON preserves a single ecosystem, as opposed to multiple, nationally-controlled, and fragmented ecosystems.

20 April 2012 SIEPON Seminar, Prague, Czech Republic 4

Ope

rato

rA Cab

leLab

s

Require

ments

for usin

g EPON in

DOCSIS envir

onment

OperatorC

Operator

D

BBF Requirements

for using EPON in

DSL environment

OperatorE Operator

G

 

SIEPON does not need to invent new technology or resolvetechnical challenges

Various architectural featuresare already debugged, refined, deployed, and field-proven

The goal of IEEE p1904.1SIEPON project: Address in a consistentand uniform waythe diverse requirementsassociated with – Multiple service models– Different provisioning and

management concepts– Various deployment scenarios

1: Common Rules and Principles1: Common Rules and Principles

20 April 2012 SIEPON Seminar, Prague, Czech Republic 5

Coordination with Other GroupsCoordination with Other GroupsIEEE P1904.1 has established close and productive relationships with

CableLabs– DPoE provides requirements

for EPON in MSO environments Broadband Forum FAN

– TR-200 provides EPON DataPath (EDP) requirements

– Coordinating activities ofWT-287 (optical monitoring) andWT-288 (deployment requirements)

ITU-T SG15– Coordinating activities on G.epon

IEEE 802.3– Successfully cooperated to

allow an increased OAM frame rate– Recently - added support for

multicast LLID

20 April 2012 SIEPON Seminar, Prague, Czech Republic 6

IEEEP1904.1SIEPON

IEEE802.3

Ethernet

BBFFAN

CableLabs

ITU-TSG15/Q2

DPoE 1.0DPoE 2.0

TR‐200WT‐287WT‐288

G.eponOMCI

802.3ah802.3av

OAM

2: Multiple Cooperating Classes of Actors2: Multiple Cooperating Classes of Actors

IEEE 802.3 EPON and IEEE P1904.1 SIEPON specifications ensure clean separation of functionality and precise definition of interfaces.

This promotes business modelsfavoring competition withineach class of actors andcooperation across classes

EPON ecosystem includesmultiple classes of actors– Test Labs– Operators– System Vendors– ASIC Vendors– Optics vendors

Each class requires and benefitsfrom the continued good health of the other classes

20 April 2012 SIEPON Seminar, Prague, Czech Republic 7

Requirements

Components

VerifiedProduct

Product

Operators OpticsVendors

ASICVendors

SystemVendors

Test Labs

3: Multiple Competing Actors in Each Class3: Multiple Competing Actors in Each Class

Underlined are members of IEEE P1904.1 SIEPON Working GroupSIEPON Seminar, Prague, Czech Republic 8

Operators Brighthouse

Networks China Telecom China Unicom KDDI KT NTT Corporation

Test Labs CableLabs Iometrix UNH – IOL RITT

ASIC Broadcom Corp. Cortina Systems Marvell Oliver Solutions PMC-Sierra Qualcomm

Systems Alcatel- Shanghai Bell ARRIS Aurora Networks CommScope Ericsson FiberHome Fujitsu Hitachi Huawei Mitsubishi Electric NEC Oki Electric Industry Sumitomo Electric ZTE Corporation

20 April 2012

Optics Delta Coretek Ligent Lightron LIG Neoptec Neophotonics OE Solutions Photop Source Photonics

IEEE P1904.1 SIEPONProject Information

IEEE P1904.1 SIEPONProject Information

20 April 2012 SIEPON Seminar, Prague, Czech Republic 9

Working Group StructureWorking Group StructureTF1: Service Configuration and Provisioning

Chair Glen Kramer Broadcom Corp.Vice Chair Ken-Ichi Suzuki NTT Corp.Exec. Secretary Zhou Zhen FiberhomeChief Editor Marek Hajduczenia ZTE Corp.

TF1: Service Configuration and ProvisioningChair Lior Khermosh PMC-Sierra, Inc.Editor Alan M. Brown Aurora Networks

TF2: Performance Requirements and Service QualityChair Curtis Knittle CableLabsEditor Jeff Stribling Hitachi

TF3: Service SurvivabilityChair Seiji Kozaki Mitsubishi ElectricEditor Hesham ElBakoury Huawei

TF4: System/Device ManagementChair James Chen HitachiEditor Fumio Daido Sumitomo Electric

TF5: Conformance Test ProceduresChair Toshihiko Kusano Oliver Solutions Editor Motoyuki Takizawa FujitsuEditor Liu Qian RITT

The P1904.1 WG currently works on four documents

Main Specification– P1904.1/D2.3

Conformance Tests– P1904.1/Conformance01– P1904.1/Conformance02– P1904.1/Conformance03

The work is divided among 5 Task Forces

20 April 2012

Project TimelineProject Timeline

SIEPON Seminar, Prague, Czech Republic 1120 April 2012

Approved by the P1904.1 WG on 9 February 2012.

201320122010 20112009

Draft PAR to NesCom(before 19 Oct. 2009)

PAR approved Std!

D2.0WG Ballot

D3.0Sponsor Ballot

Draft standard to RevComD1.0

Baseline proposals selected

Jul

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Draft PAR to NesCom(before 29 July 2011)

PAR approved

D1.0Baseline proposals selected

D2.0WG Ballot

D3.0Sponsor Ballot

Std!

Draft standard to RevCom

- SIPON Working Group Meeting- IEEE-SA Standards Board Meeting

P190

4.1

P190

4.1/

Con

form

ance

How to ParticipateHow to Participate

Pas

t M

eeti

ng

s

Future Meetings(*) tentative

20 April 2012 SIEPON Seminar, Prague, Czech Republic 12

Date Location Host

2010

Feb Piscataway, NJ IEEE-SAApr Shanghai, China ZTEJun Busan, S. Korea Korea TelecomAug Beijing, China FiberhomeOct Tokyo, Japan NTTDec Santa Monica, CA Broadcom + RITT

2011

Feb Vancouver, Canada PMC SierraApr Louisville, CO CableLabsJun Shenzhen, China HuaweiAug Kobe, Japan Sumitomo Oct Kamakura, Japan MitsubishiDec Shanghai, China China Telecom

2012

Feb Palo Alto, CA HitachiApr Prague, Czech Rep IEEE-SA & ICAPJun Louisville, CO CableLabsAug Sapporo, Japan (*) Fujitsu (*)Oct Beijing, China RITT & FiberhomeDec Shanghai, China (*) Qualcomm

SIEPON WG holds 6 meetings per year

Any company is welcome to join and participate

• Entity-based project(One company = one vote)

• Companies must be IEEE Corporate members

More information at

• http://www.ieee1904.org/1/

Thank YouThank You

20 April 2012 SIEPON Seminar, Prague, Czech Republic 13