past, present, and future of fiber-to-the-home solutions
DESCRIPTION
Guest lecture at EE201A Seminar, Stanford University, Stanford, CA, USA, Dec. 3, 2001.TRANSCRIPT
1ADVANCED SYSTEM TECHNOLOGY
STMicroelectronics
Advanced System Technology
Past, Present, and Future of Fiber-To-The-Home Solutions
Joseph Kim, Ph.D.ST Researcher-in-Residence, Stanford Networking Research Center
Special thanks to:AST Optical Networking R&D Team, and Brian Ford of Bell South
ADVANCED SYSTEM TECHNOLOGY 2 Dec. 3, 2001
Goals of This Talk
Review past and present FTTH solutions.Discuss evolution scenarios to WDM PON.Give an idea on what’s really going on in this area.
2ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 3 Dec. 3, 2001
Outline
Why FTTH?APONEPONSlides from BellSouth: First Day in the Life of FTTHWDM-PON: Evolution of FTTH SolutionsFinal Words
ADVANCED SYSTEM TECHNOLOGY 4 Dec. 3, 2001
Why Fiber-To-The-Home?
Advantages of fiber as a transmission medium• Greater capacity (> 100 Tbit/s*)• Smaller size and light weight• Immune to electromagnetic interference
Fiber penetration in the networks• Already deployed in the backbone, the WANs, and
the MANs.• Optical Ethernet is being introduced in LANs and
will spread to MANs and WANs.
* Mitra & Stark, Nature, vol 411, June 28, 2001.
3ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 5 Dec. 3, 2001
APON
Point-to-Point vs. PONFSAN InitiativeCommon Network ElementsSpecificationsFrame FormatsRangingMedium Access ControlBurst Mode ReceptionUNI Signaling and Control FlowsExample – Lucent APON SystemSummary
ADVANCED SYSTEM TECHNOLOGY 6 Dec. 3, 2001
APON: Point-to-Point vs. PON
Central OfficeAccess SW
(Statistical MUX)
PassiveSplitter
Houses
4ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 7 Dec. 3, 2001
APON: FSAN Initiative
Goal: To break through the economic barrierMeans: By large-scale introduction of broadband access networks through definition of basic set of common requirementsStandards: ITU-T Recs. G.983.1 & 2• Upcoming extensions
� G.983.3: WDM overlay� G.983.4: Dynamic bandwidth allocation (DBA)� G.983.5: Enhanced survivability (protection)
ADVANCED SYSTEM TECHNOLOGY 8 Dec. 3, 2001
APON: Common Network Elements
ONU
ONU
ONU
OLT
OLT
OLT
OLT
NTE
NTE
NTE
ONT
SN
SN
SN
SN
ServiceNode
PON HeadEnd Node
LocalExchange
Cabinet
SDH PON ADSL
VDSL
VDSL
UNI
FTTCab
FTTC/FTTBFTTB/FTTH
FTTEx
VB5
HomeCurb
Source: Tom Rowbotham, BT• SN: Service Node • OLT: Optical Line Termination• ONU: Optical Network Unit• ONT: Optical Network Termination• NTE: Network Termination Equipment
5ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 9 Dec. 3, 2001
APON: Specifications
Symmetrical 155 Mb/s downstream/upstream(Optional) Asymmetrical 622 Mb/s downstream & 155 Mb/s upstreamOptical attenuation ranges• Class B: 10-25 dB• Class C: 15-30 dB
Maximum fiber distance: 20 kmMaximum split ratio: 32 (optional 64)
ADVANCED SYSTEM TECHNOLOGY 10 Dec. 3, 2001
APON: Frame Formats*
PLOAM1
ATMCell 1 . . . ATM
Cell 27PLOAM
2ATM
Cell 28 . . . ATMCell 54
Tframe = 56 cells of 53 bytes
Contain 53 upstream grants
ATMCell 1
ATMCell 2
ATMCell 3
ATMCell 53
Tframe = 53 cells per frame
3 overhead bytes per cell (guard time, preamble, delimiter)
Downstream frame format
Upstream frame format
* For 155.52/155.52 Mb/s PON
. . .
6ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 11 Dec. 3, 2001
APON: Ranging
Placing all ONTs at the same virtual distance from the OLT.
Before ranging: physically at different distances
ONT
OLTONT
ONT
After ranging: virtually at the same distance
OLT
ONT
ONT
ONT
ADVANCED SYSTEM TECHNOLOGY 12 Dec. 3, 2001
APON: Medium Access Control
Based on TDMA with grant mechanism
. . .
Grants
Cells or Minislots
OperationalParameters
ONT
ONT
ONT
OLT
Management
7ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 13 Dec. 3, 2001
APON: Burst Mode Reception
The following should be done during the short overhead (24 bits at 155.52Mb/s ≈ 154.3 ns):• Threshold level control• Bit synchronization• Cell delineation
t…
From ONT A
…
From ONT B
…
From ONT C
ADVANCED SYSTEM TECHNOLOGY 14 Dec. 3, 2001
APON: UNI Signaling and Control Flows
TerminalEquipment
ONT OLTServiceNode
B-ISDN User-Network Signaling (Q.2931 etc.)
BBCC (VB5.2, concentration)
OMCC
IFPON SNI NNIUNI
• RTMC: Real Time Management Co-ordination• BBCC: Broadband Bearer Channel Control• OMCC: ONT Management & Control Channel
RTMC (VB5.1)
8ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 15 Dec. 3, 2001
APON: Example –Lucent APON System
AscendGX-550
LucentAC 230
ONTs PONUNI Cards• 8-port DS1 CES• 10/100 Base-T• ATM25• ATM45
155 Mbit/s
32 Split
DS3/1 CircuitNetwork
ATM IF (OC3)
ATMNetwork
OC-3c/STM-1OC-12c/STM-4OC-48c/STM-16
EMS(NavisTM)
NMS
CORBA Interface
ADVANCED SYSTEM TECHNOLOGY 16 Dec. 3, 2001
APON: Example –Lucent FTTB/H ONT
Top View Rear View*
Front View Fiber Cassette
* UNI cards are PCMCIA type.
9ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 17 Dec. 3, 2001
APON: Summary
With the APON, ILECs can finally service broadcasting video through their access networks, competing with CA-TV service providers.
ILECsStrong
Players
A core set of APON standards (ITU-T G.983.1 & 2) exists today, has been proven by several field trials, and thereby guarantees interoperability among products from different vendors.
MatureLevel of
Standards
Voice, data, and streaming video are transported by normal ATM cells, while broadcasting video is delivered by WDM overlay (optional).
YesService
Integration
APON is based on ATM technology, so it continues to use network service providers’ existing ATM-based infrastructure.
Downside is, however, its relative difficulty in adapting to all IP-based solutions in the near future.
LowInitial Capital
Expenditure
RemarksAnswersKey Questions
ADVANCED SYSTEM TECHNOLOGY 18 Dec. 3, 2001
EPON
OverviewUp/Down Traffic FlowFrame FormatsEPON vs. APONSummary
10ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 19 Dec. 3, 2001
EPON: Overview
Focus on direct support of Ethernet services.Candidate solution for Ethernet in the First Mile (EFM)*Initial focus: FTTB and FTTC solutionsLong-term objective: Full-service FTTH solutionBenefits compared to the APON
• Low protocol overhead• Higher bandwidth
• Lower costs
• Broader service capabilities
Similar upstream architecture to ITU-T G.983* EFM is a new IEEE 802.3 working group (mostly Ethernet vendors) formed Nov. 2000.
ADVANCED SYSTEM TECHNOLOGY 20 Dec. 3, 2001
EPON: Up/Down Traffic Flow
Proposed 1490nm downstream and 1310 nm upstream (1550 free for WDM overlays)Data is transmitted in variable-length packets of up to 1,518 bytes (i.e., Ethernet frame)Some packets may be intended for all of the ONUs (broadcast packets) or a particular group of ONUs (multicast packets)Upstream traffic is managed utilizing TDM technology, in which transmission time slots are dedicated to the ONUsTime slots are synchronized so that upstream packets from the ONUs do not interfere with each otherThe synchronization marker is a one-byte code that is transmitted every 2 ms to synchronize the ONUs with the OLT
* Source: Alloptic
11ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 21 Dec. 3, 2001
EPON: Frame FormatsDownstream traffic is segmented into fixed-interval frames, each of which carries multiple variable-length packets (IEEE 802.3 format) and transmitted downstream at 1 Gbps.
Clocking information, in the form of a synchronization marker, is included at the beginning of each frame: one-byte code transmitted every 2 ms.
Upstream frames are formed by a continuous transmission interval of 2 ms. A frame header identifies the start of each upstream frame.The example includes two variable-length packets and some time-slot overhead.
The time-slot overhead includes a guard band, timing indicators, and signal power indicators.When there is no traffic to transmit from the ONU, a time slot may be filled with an idle signal.
* Source: Alloptic
ADVANCED SYSTEM TECHNOLOGY 22 Dec. 3, 2001
EPON vs. APON
ATMEthernet cost+Cost
ATMIP/EthernetComponents
Basically cross-connect, (but can have the same
features as EPON)
routing, switching, firewall, etc.
ONU Features
DifficultYes (easily up to 10 Gbps)
Scalable
TDMATDMA, OthersMultiple Access Scheme
LargeSmallProtocol OverheadFor IP Service
155/622 Mbps1 GbpsSpeed
1998 (1995)N/ADate
ITU-T (FSAN)IEEEStandard Body
APONEPON
12ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 23 Dec. 3, 2001
EPON: Summary
This is the effect of a current generalized weak R&D activity within Operators.
Mostly Vendors
Strong
Players
IEEE can expedite process with link to ITU-T APON.EFM is not looking for a ‘final’ ‘single’ solution; the Working Group is just considering EPON as an option for Ethernet.
Just Started
Level of
Standards
Voice, data, and streaming video are transported by normal IP packets, while broadcasting video can be delivered by WDM overlay.
YesService
Integration
EPON is based on Ethernet and IP protocols, so the current NSPs (mostly ILECs) should upgrade their existing ATM-based infrastructure at COs and backbones.But this is not the case for CLECs, which are very active in investing new all IP-based technologies.
Mid to High
Initial Capital
Expenditure
RemarksAnswersKey Questions
ADVANCED SYSTEM TECHNOLOGY 24 Dec. 3, 2001
WDM-PON:Evolution of FTTH Solutions
APON/EPON
B-ISDN UNI
WDM-PON
13ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 25 Dec. 3, 2001
WDM-PON
DriversEvolution ScenariosWavelength AllocationExample Configurations• For Video Overlay• With WGR (AWG)
R&D Opportunities
ADVANCED SYSTEM TECHNOLOGY 26 Dec. 3, 2001
WDM-PON: Drivers
What are network/service providers’ needs?• Bandwidth (trivial)
What are (will be) user requirements?• Bandwidth (trivial)
What are (will be) killer applications?• Digital video distribution!• Video on demand• Advanced multimedia services (peer-to-peer)• Ultra-fast FTP(up/down-load)
14ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 27 Dec. 3, 2001
WDM-PON:Evolution Scenarios
ADSL to VDSL w/ FTTx APON• Big boost in BW without fiber deployment in the last mile
VDSL w/ FTTx APON to FTTH APON (or EPON*)• Only VDSL modems and DSLAMs are to be replaced by
ONTs and OLTs (keep existing ATM-based infrastructure).• Mature standards and strong supports from leading telecom
service providers and equipment suppliers.� Can drive and afford initial deployment of fibers in the last mile.
• Lower maintenance costs.• We’ll see a focus has already been moved onto a next
generation PON (i.e., WDM-PON) until EFM (for EPON) standards finally come out.
* CLECs may choose EPON as their solution at this step.
ADVANCED SYSTEM TECHNOLOGY 28 Dec. 3, 2001
WDM-PON:Evolution Scenarios (Continued)
FTTH APON to WDM-PON• WDM-PON will introduce advanced schemes for
‘IP over WDM’• Provides protocol/format-independent P-t-P paths
between ONTs and OLT.� Can use relatively-cheap optical Ethernet components
(or those of any other P2P solutions) w/o all the hassles of complicated MAC protocols (unlike APON & EPON).
• Many implementation options
15ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 29 Dec. 3, 2001
WDM-PON: Wavelength Allocation1.3 µm wavelength band (Upstream)
1260 13601340132013001280
G983.1 Upstream Band(unchanged at 100 nm bandpass)
Upstream Window (no change)Basic Band (constrained APON band)Enhancement Band (other uses)For future use
1360 14601440142014001380
Reserved for allocation by ITU-TGuard band
1480
Guard band
Intermediate wavelength band (Upstream and/or Downstream)
1.5 µm wavelength band (Upstream and/or Downstream)Enhancement BandBasic Band
ATM-PON
DownstreamGuard band Guard band
Future L Band
Reserved forallocation by ITU-T
λ 1λ
2λ
4λ
3λ
5λ
6
λ1-λ6:Defined in Table 2
1.3 µm wavelength band (Upstream)
1260 13601340132013001280
G983.1 Upstream Band(unchanged at 100 nm bandpass)
Upstream Window (no change)Basic Band (constrained APON band)Enhancement Band (other uses)For future use
1360 14601440142014001380
Reserved for allocation by ITU-TGuard band
1480
Guard band
Intermediate wavelength band (Upstream and/or Downstream)
1360 14601440142014001380
Reserved for allocation by ITU-TGuard band
1480
Guard band
Intermediate wavelength band (Upstream and/or Downstream)
1.5 µm wavelength band (Upstream and/or Downstream)Enhancement BandBasic Band
ATM-PON
DownstreamGuard band Guard band
Future L Band
Reserved forallocation by ITU-T
λ 1λ
2λ
4λ
3λ
5λ
6
Enhancement BandBasic Band
ATM-PON
DownstreamGuard band Guard band
Future L Band
Reserved forallocation by ITU-T
λ 1λ
2λ
4λ
3λ
5λ
6
λ1-λ6:Defined in Table 2
* ITU-T Rec. G.983-3.
ADVANCED SYSTEM TECHNOLOGY 30 Dec. 3, 2001
WDM-PON: For Video Overlay
WDM(WF1)
orCombiner
For Bas ic Band
For Enhancement Band
(Bas ic Band and Video Rece iver)
Tx
for Bas ic Band
for Enhancement Band
Tx
RxLogic
Tx
RxLogicWDM -L
Tx
Tx
RxLogic
RxRx
WDM
Combiner
WDM
Combiner
For Bas ic Band
For Enhancement Band
ONU
Tx
RxLogic
OLT
Tx
RxLogicWDM -LTx
RxLogic
Tx
RxWDM LL
(combined Bas ic Band and Enhancement Band)
RxRx
WDM
(WF2)Combiner
WDM-NWDM
(WF1)or
Combiner
For Bas ic Band
For Enhancement Band
(Bas ic Band and Video Rece iver)
Tx
for Bas ic Band
for Enhancement Band
Tx
RxLogic
Tx
RxLogicWDM -L
Tx
Tx
RxLogic
RxRx
WDM
Combiner
WDM
Combiner
For Bas ic Band
For Enhancement Band
ONU
Tx
RxLogic
OLT
Tx
RxLogicWDM -LTx
RxLogic
Tx
RxWDM LL
(combined Bas ic Band and Enhancement Band)
RxRx
WDM
(WF2)Combiner
WDM-N
Combiner(first stageof 2:Nsplitter)
Tx
RxLogic
WDM-N
OLT (for Basic Band)
E-OLT (for Enhancement Band)Lo
Hi
AmpTx
Passband
Tx
RxLogicWDM-L
Combiner(first stageof 2:Nsplitter)
Tx
RxLogic
WDM-N -Lo
Hi
Amp
Combiner(first stageof 2:Nsplitter)
ONU (for Basic Band and Enhancement Band)
Tx
RxLogic
WDM-N
OLT (for Basic Band)
E-OLT (for Enhancement Band)Lo
Hi
AmpTx
Passband
Tx
RxLogicWDM-L
Combiner(first stageof 2:Nsplitter)
Tx
RxLogic
WDM-N
OLT (for Basic Band)
E-OLT (for Enhancement Band)Lo
Hi
AmpTx
Passband
Tx
RxLogicWDM-L
Combiner(first stageof 2:Nsplitter)
Tx
RxLogic
WDM-N -Lo
Hi
Amp
Combiner(first stageof 2:Nsplitter)
ONU (for Basic Band and Enhancement Band)
Tx
RxLogic
WDM-N
OLT (for Basic Band)
E-OLT (for Enhancement Band)Lo
Hi
AmpTx
Passband
Tx
RxLogicWDM-L
* ITU-T Rec. G.983-3.
16ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 31 Dec. 3, 2001
WDM-PON: With WGR (AWG)
RX
TX
1x16WGR
RX
TX
WDM-N
WDM-N
ONT 1
ONT N
…… ……λ1
λ16
λ17
λ32
WDM-L
λ1, …, λ 16
λ17, …, λ 32
WDMTX
WDMTX
OLT
ADVANCED SYSTEM TECHNOLOGY 32 Dec. 3, 2001
WDM-PON: R&D Opportunities
Targets• Find the best strategy for future upgrades based on the
existing (in the future) PON infrastructure: Possible steps are� Systems overlap on the same infrastructure� Dynamic reconfiguration to accomplish providers and/or
services grooming� All-optical packet switching
• Define system architecture and protocols.• Identify new equipment (e.g. LT, NT, CPE) in the access
� Envisaging solutions for the ‘last meter’ � Listing requirements to enable ‘Fiber-to-the-appliance”
• Identify and develop components enabling new system architecture.
17ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 33 Dec. 3, 2001
WDM-PON: R&D Opportunities (Continued)
Research Topics• New IP-centric operations and management protocols
� OAM&P� Protection
• WDM components� AWGs� Optical filters
• Tunable lasers• Use of optical Ethernet (i.e.,10GigE) components• Electronic components• Testbed
� Jointly with Industrial and/or Academic partners
ADVANCED SYSTEM TECHNOLOGY 34 Dec. 3, 2001
Final Words
The infrastructure for future FTTH solutions will be based on PON.APON provides a better migration path to CLECs, while EPON is more attractive to ILECs.Focus of R&D activities in FTTH will be put on the next generation PON based on WDM and IP technologies, leveraging the existing (in the future) PON infrastructure.
18ADVANCED SYSTEM TECHNOLOGY
ADVANCED SYSTEM TECHNOLOGY 35 Dec. 3, 2001
For Further InformationADSL
• DSL Forum� http://dslforum.org/
APON• FSAN
� http://www.fsanet.net/
EPON• IEEE 802.3 Ethernet in the First Mile Study Group
� http://www.ieee802.org/3/efm/
Optical Ethernet• IEEE P802.3ae 10Gb/s Ethernet Task Force
� http://grouper.ieee.org/groups/802/3/ae/index.html
• 10 Gigabit Ethernet Alliance� http://www.10gea.org/