are you ready for docsis 3.1
TRANSCRIPT
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Are You Ready for DOCSIS 3.1
Presenter: Tony HolmesVeEX Field Applications Engineer
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CONFIDENTIAL 3.1 | Bootcamp 2
DOCSIS 3.1 Introduction DOCSIS 3.1 Basics Using the Tools Migration Plans
Technical Session Overview
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DOCSIS 3.1 Introduction
Confidential & Proprietary Information of VeEX Inc. 3Presentation Name Here
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Traffic growth is driven by demand and competition
The DOCSIS 3.1 spec will greatly increase the bandwidth performance of the HFC plant using OFDM PHY & LDPC FEC
10+ Gbps Downstream & 1+ Gbps Upstream will permit DOCSIS to satisfy subscriber BW needs well in to the future
DOCSIS scales very well. Efficient spectrum utilization Node splits Adding BW (DS & US) Mid-split/High-Split architecture DOCSIS Enhancements (higher modulations, new
PHY/FEC, etc.)
Why DOCSIS 3.1?
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Higher orders of modulation (HOM)
Elimination/ Reduction of RF guard band
Greater capacity achieved primarily through LDPC (HOM in clean channel) and OFDM (elimination of guard bands and HOM in impaired channels)
Close to 2X improvements over DOCSIS 3.0
More Capacity needed?
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DOCSIS 3.1 delivers more throughput in existing spectrum Capitalizes on the new LDPC FEC & OFDM PHY technologies
Permits higher modulation orders (QAM 1024, 4096 & etc.)
Eliminates 6MHz & 8MHz channelization (N.A & Europe can unify)
Upstream operation up to at least 200MHz
Downstream operation to at least 1.2GHz
Will use bit-loading to adjust to the HFC plant
DOCSIS 3.1 Delivers More Throughput
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DOCSIS 3.1 Basics
3.1 | Bootcamp 7
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Example of Spectrum Options
3.1 | Bootcamp 8
Downstream Spectrum Options 1. Initially use 750/862/1002 MHz Plants (> 6 Gbps) 2. Next up to 1.2 GHz with amp upgrade (> 7Gbps +) 3. Long-term to 1.7 GHz with tap upgrade (> 10Gbps +)
Upstream Spectrum Options 1. Use the current sub-split 42/65 MHz (> 200 Mbps) 2. mid-split 85 MHz (> 400 Mbps) 3. high-split 230 MHz (> 1Gbps)
CONFIDENTIAL
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Orthogonal Frequency Division Multiplexing = large collection of very narrow QAM sub-carriers
Sub-carriers are grouped into OFDM blocks which are processed by FFT
OFDM
3.1 | Bootcamp 9CONFIDENTIAL
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No wasted Capacity
CONFIDENTIAL 3.1 | Bootcamp 10
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OFDM sub-carriers can be packed tightly without interfering with each other
OFDM sub-carriers fall off faster at the band edges
OFDM Concept
CONFIDENTIAL 3.1 | Bootcamp 11
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FEC = Forward Error Correction
LDPC = Low Density Parity Check Invented by Robert Gallager in 1962 Could not be implemented in HW until recently Much more robust than Reed-Solomon
LDPC FEC
3.1 | Bootcamp 12CONFIDENTIAL
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HFC Plant has at least 8 dB variation in CNR across plant
Multiple profiles allow operators to leverage SNR variation to improve system capacity
Example with 4 profiles A. Worst (mostly QAM256) B. Average (mostly QAM1K) C. Better (mostly QAM2K) D. Best (mostly QAM4K)
Downstream Profiles QAM4K Anyone?
3.1 | Bootcamp 13CONFIDENTIAL
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OFDM/3.1 gives more Bits/Hz at the same CNR & operating conditions than 3.0
OFDM - More for less
CONFIDENTIAL 3.1 | Bootcamp 14
6.3 6.38.6
10.5
Bits/Hz
CNR35 dB 41 dB
35% Efficiency gain 3.1 vs. 3.06.3 Max Bits/Hz on 3.010.5 Max Bits/Hz on 3.1 w/ QAM 40968.5 Typical Bits/Hz on 3.1 w/mixed QAM (256~4096)
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PLC: (Physical Link Channel) all necessary information to decode and use the OFDM Signal – your passport
NCP: (Next Codeword Pointer) provides the modems with which Code Words (CW) are present and on each profile which CW to use
Profile A: used for Boot Profile - No profile A no 3.1. All 3.1 modems will use Profile A
OFDM: Information about the overall OFDM channel AvgPower, MER, and Noise
Profiles B, C and D: Provide higher modulations for greater efficiency
Building Blocks in Details
CONFIDENTIAL 3.1 | Bootcamp 15
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OFDM Overall Level, MER, ICFR, Echo
PLC (Physical Link Channel) Level, MER, CWE and UCWE
NCP (Next Codeword Pointer) Level, MER, CWE, and UCWE
Profiles A, B, C, D MER, CWE, and UCWE
OFDM Measurements
CONFIDENTIAL 3.1 | Bootcamp 16
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PLC needs to be locked
U CWE (Uncorrectable CWE): 0
MER > 15 dB (QAM16 OFDM)
Level > -15 dBmV
C CWE (Correctable CWE): Should be 0 but as long as they are corrected, it is okay
Test 1: PLC (Phy Link Channel)
CONFIDENTIAL 3.1 | Bootcamp 17
PLC
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NCP needs to be locked
U CWE (Uncorrectable CWE): 0
MER > 15 dB (QAM16 OFDM)
Level > -15 dBmV
C CWE (Correctable CWE): Should be 0 but as long as they are corrected, it is okay
Test 2: NCP (Next Codeword Pointer)
CONFIDENTIAL 3.1 | Bootcamp 18
NCP
CW start at low end and populate up
NCP start at high end and populate down
NCP lives here
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Profile A needs to be locked
U CWE (Uncorrectable CWE): 0
MER > 27 dB (please note – average MER)
C CWE (Correctable CWE): Should be 0 but as long as they are corrected, it is okay
IMPORTANT: If Profile A has not achieved locked or gets U CWE, modems will roll back to 3.0 > Look for Profile A performances if modem only locks in 3.0 mode
Test 3: Profile A
CONFIDENTIAL 3.1 | Bootcamp 19
Profile A
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Average Level > -6 dBmV
ICFR < 2 dB Peak to Peak
MER Average > 36 dB
MER Standard Deviation < 2 dB
MER @ 2nd Percentile > 35 dB
Test 4: OFDM Overall
CONFIDENTIAL 3.1 | Bootcamp 20
OFDM
Modulation Min CNR/MER Mini Avg Power
QAM4096 41 dB -6 dBmV
QAM2048 37 dB -9 dBmV
QAM1024 34 dB -12 dBmV
QAM256 27 dB -15 dBmV
QAM16 15 dB -15 dBmV
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Profile needs to be locked
U CWE (Uncorrectable CWE) and CWE (Correctable CWE): varies
MER see table per profile
Test 5: Profiles B, C, D
CONFIDENTIAL 3.1 | Bootcamp 21
Modulation Min CNR/MER Mini Avg Power
QAM4096 41 dB -6 dBmV
QAM2048 37 dB -9 dBmV
QAM1024 34 dB -12 dBmV
QAM256 27 dB -15 dBmV
QAM16 15 dB -15 dBmV
Profile B, C, D, ....
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Lock onto primary
Verify Bonding of SC QAM and OFDM on the Forward
Verify Bonding on the Return
Verify Average Power
Verify Upstream TX
Service Level Testing
CONFIDENTIAL 3.1 | Bootcamp 22
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Perform OFDM verification
Service Level Testing
CONFIDENTIAL 3.1 | Bootcamp 23
Check bonded channels for any errors
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PING for connectivity
VeTEST for Throughput testing both at RF port or Ethernet Port
PING and VeTEST
CONFIDENTIAL 3.1 | Bootcamp 24
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Using Spectrum to find Noise under OFDM
CONFIDENTIAL 3.1 | Bootcamp 25
OFDM 96 MHzRunning clean
Noise Detected @ NCPWill cause modems to switch to 3.0
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Example of Migration Plan
3.1 | Bootcamp 26
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Backward Compatibility Support at least 24 bonded SC-QAM in downstream and 8 in upstream S-CDMA in the upstream DOCSIS 3.1 CM required to operate on DOCSIS 3.0 CMTS DOCSIS 3.1 CMTS required to support DOCSIS 3.0 (and 2.0) CM
Operation on existing HFC Networks Upstream spectrum remains below downstream Supports operation with existing upstream splits, 42/65MHz as in most operation, 85MHz
as specified in DOCSIS 3.0 Support spectrum evolution 200 MHz on upstream 1.2/1.7 GHz on downstream Support the ability to take advantages of enhanced capabilities when Network, Headend
and CPE permit
D3.1 Technology Migration
CONFIDENTIAL 3.1 | Bootcamp 27
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Current State: DOCSIS 3.0 CMTS or CCAP and 3.0 CM growth
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54/85 MHz
750MHz
5MHz
42/65MHz
Downstream
860MHz
1,000
MHz
20MHz
1-4 LD Channels
1-24/32 LD Channels
. . . . . .
D3.0 CM(NxM LD)
D2.0 CM(1x1 LD)
D2.0 CM(1x1 LD)
D1.0/1.1 CM
(1x1 LD)
D1.0/1.1 CM
(1x1 LD)
• May have 1.0/1.1 LD CMs (need 3.2 MHz 16-QAM channel)• More 3.0 LD CMs and GWs• More LD US and DS carriers and channel bonding
D3.0 CM(NxM LD)
Operating ModeLegacy DOCSIS LDDOCSIS 3.1 3.1
CCAP or CMTS
DOCSIS 3.0 (LD)
Upstream
LegacyOOB DS
Legacy OOB US
Out-of-BandMotorolaCisco
3.1 | BootcampCONFIDENTIAL
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54/85 MHz
750MHz
5MHz
42/65MHz
Downstream
When 3.1 available: Begin deploying 3.1 CPEs in LD mode
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860MHz
1,000
MHz
20MHz
1-4 LD Channels
1-24/32 LD Channels
. . . . . .
D3.0 CM(NxM LD)
D2.0 CM(1x1 LD)
D2.0 CM(1x1 LD)
D1.0/1.1 CM
(1x1 LD)
D1.0/1.1 CM
(1x1 LD)
• May remove 1.0/1.1 LD CMs• Lots of 3.0 LD CMs and GWs• More LD US and DS carriers• May deploy S-CDMA• Begin deploying 3.1 CMs
D3.0 CM(NxM LD)
Operating ModeLegacy DOCSIS LDDOCSIS 3.1 3.1
CCAP or CMTS
DOCSIS 3.0 (LD)
Upstream
LegacyOOB DS
Legacy OOB US
Out-of-BandMotorolaCisco
D3.1 CM(NxM LD)
D3.1 CM(NxM LD)
3.1 | BootcampCONFIDENTIAL
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Future: Deploy 3.1 DS & US in Existing Split
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D3.1 CM(NxM LD +
3.1)
D3.1 CM(NxM LD +
3.1)
D2.0 CM(1x1 LD)
D2.0 CM(1x1 LD)
D3.0 CM(NxM LD)
D3.0 CM(NxM LD)
• Removed 1.0/1.1 LD CMs; no need for TDMA LD US channels• Begin deploying 3.1 CCAP: new blade or firmware update to 3.1 DS and US blade
• For MHA architecture, new EQAMs might be firmware upgradeable to 3.1 DS blades• Begin using OFDMA for 3.1 US and/or OFDM for 3.1 DS (don’t have to deploy together)
• Overlay 3.1 on current US spectrum with LD US, filling gaps and using logical channels• Use open spectrum for 3.1 DS OFDM channels in existing DS spectrum
Operating ModeLegacy DOCSIS LDDOCSIS 3.1 3.1
Out-of-BandMotorolaCisco
CCAPDOCSIS 3.1
54/85 MHz
750MHz
5MHz
42/65MHz
Downstream
860MHz
1,000
MHz
20MHz
1-4 LD Channels
1-24/32 LD Channels
. . . . . .
Upstream
LegacyOOB DS
Legacy OOB US
OFDMA 3.1 OFDM 3.1 OFDM 3.1
3.1 | BootcampCONFIDENTIAL
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Long Term: 3.1 CCAP w/more DS and/or US capacity
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3.X CCAPDOCSIS 3.X
D2.0 CM(1x1 LD)
D2.0 CM(1x1 LD)
D3.0 CM(NxM LD)
D3.0 CM(NxM LD)
100-240 MHz
750MHz
5MHz
85-200MHz
DownstreamUpstream
20MHz
TBD
OFDM 3.1
• Expand 3.1 US and/or DS capacity as feasible and required• Move OOB carriers; assess impact on existing STBs above 54 MHz• Use OFDM and OFDMA more extensively• Only use OFDM in new spectrum
. . . . . .
1-24/32 LD Channels
Operating ModeLegacy DOCSIS LDDOCSIS 3.1 3.1
D3.1 CM(NxM LD +
3.1)
D3.1 CM(NxM LD +
3.1)
1-8 LD Channels
OFDM 3.1
860MHz
1,000
MHz
1,200
MHz
OFDM 3.1
LegacyOOB DS
Legacy OOB US
Out-of-BandMotorolaCisco
OFDMA 3.1
3.1 | BootcampCONFIDENTIAL