10gbase-t: 10gbit/s ethernet over copperusers.ecs.soton.ac.uk/sqc/el336/10gbase-t.pdf · 10gbase-t:...
TRANSCRIPT
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10GBASE10GBASE--T: T: 10Gbit/s Ethernet over copper10Gbit/s Ethernet over copper
NEWCOM-ACoRN Joint Workshopwww.newcom-acorn.org
Vienna, 20-22 September 2006
Gottfried Ungerboeck
2
ContentsContents
Introduction & Ethernet evolution
Link characteristics
10GBASE-T modulation and equalization
10GBASE-T coding and framing
Decision-point SNR and power control
Front-end and echo cancellation challenges
Transceiver realization
Start-up procedure
Status and outlook
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Ethernet over UTP copper is ubiquitous Ethernet over UTP copper is ubiquitous
4-pair UTP cable + RJ-45 connector: fast, secure, cheap
4
Ethernet over UTP copper is ubiquitous Ethernet over UTP copper is ubiquitous
Total Ethernet ports(switch + client) shipped
through 2004: >> 2 Billion(BRCM estimate)
Installed Cable Length Distribution
0%
2%
4%
6%
8%
10%
12%
14%
16%
18%
0 10 20 30 40 50 60 70 80 90 100 110
Length (m)
% D
istr
ibu
tio
n
Sources: Hubbell, Seimon Co., Nordx/CDT, Cabling Partnership, & Fluke; 120K links surveyed
* shorter distances fordata centers only
Length distribution of installed cabling*
Estimated WW Installed Base (Copper links)
139 millionCat5
462 millionCat5e
3.7 millionCat7
315 millionCat6 Cat5 / old class D
Cat5e / new class D
Cat6 / class E
Cat7 / class F
(BSRIA)
Estimated WW installed base of copper links
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Ethernet drawing by Bob Metcalfe, around 1976
In the meanwhile, the ETHER bus has evolved into a topology of In the meanwhile, the ETHER bus has evolved into a topology of connected stars, in which stations are attached to the network connected stars, in which stations are attached to the network
nodes via pointnodes via point--toto--point links. point links. Repeaters are replaced by switches. The CarrierRepeaters are replaced by switches. The Carrier--Sense Multiple Sense Multiple Access with Collision Detection (CSMA/CD) protocol no longer Access with Collision Detection (CSMA/CD) protocol no longer
plays a critical role.plays a critical role.The Ethernet Frame Format has been retained.The Ethernet Frame Format has been retained.
Evolution of EthernetEvolution of Ethernet
6
IEEE 802.3 (Ethernet) Standard
• Latest consolidated version of 9 Dec 2005
• Comprises 67 clauses, 2696 pages (Clause 55 reserved for 10GBASE-T)
• 10GBASE-T approvedon 21 July 2006.
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Ethernet Physical Layers (Ethernet Physical Layers (PHYsPHYs) for Copper) for Copper
1 Mbit/s: 1BASE5 (coax)
10 Mbit/s: 10BASE5, 10BASE2, 10BROAD36 (coax)
10BASE-T (2-pair UTP-3, 1 x 10 Mbit/s, HDX, 1991)
100 Mbit/s: 100BASE-T4 (4 pair UTP-3, 3 x 33 Mbit/s, HDX)
100BASE-TX (2-pair UTP-5, 1 x100 Mbit/s, FDX, 1995)
100BASE-T2 (2 pair UTP-3, 2 x 50 Mbit/s, dual DX, 1997)
1Gbit/s: 1000BASE-T (4-pair UTP-5, 4 x 250 Mbits, quad DX, 1999)
10Gbit/s: 10GBASE-T (4-pair UTP- 6 or better, 4 x 2.5 Gbit/s, quad DX, 2006)
Deployed in huge quantities
UTP-3: unshielded twisted pair – category 3 (voice grade) UTP-5: unshielded twisted pair – category 5 (data grade)
8
Ethernet Copper PHY ProgressionEthernet Copper PHY Progression
• As data rates increase, copper PHYs must become increasingly more sophisticated to operate over UTP cabling
10 Mbps2-pair HDXManchester
100 Mbps2-pair FDXScramblingMLT-3Equalization
1000 Mbps4-pair quad DXScramblingEcho & NEXT canc.
PAM-5TCM (8st 4D) Parallel DFE
10 Gbps4-pair quad DXScramblingEcho &NEXT canc.
128-DSQLDPC + CRCTH precodingMatrix FFEPCS framesTX power controlComplex trainingprocedure
2-pair HDX/FDX
4-pair quad DX
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10BASE10BASE--T and 100BASET and 100BASE--TX modulationsTX modulations
10BASE-T: 10 Mbit/s over 2-pair UTP-3 (voice grade, 1991)
100BASE-TX: 100 Mbit/s over 2-pair UTP-5 (data grade, 1995)
MLT-3 signal
1 0 1 1 1 0 1 0 0 1
10
10GBASE10GBASE--T: 4T: 4--pair quad DXpair quad DX
Like 1000BASE-T, but 10 times faster and more sophisticated ...
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Link characteristics and achievable rate
12
Link segment characteristics specified for 10GBASELink segment characteristics specified for 10GBASE--TT
• "The cabling system used to support 10GBASE-T requires ... ISO/IEC 11801 Class E or Class F 4-pair balanced cabling with a nominal impedance of 100 Ω" i.e., cabling better than Cat 5
• Link segment characteristics include the effects of work area & equipment cables and connectors
• Cabling types and distances:
− Class E* / Category 6***: unscreened ≤ 55 m
− Class E* / Category 6***: screened ≤ 100 m
− Class F* and Class EA**/ Augmented Category 6 **** ≤ 100 m
* ISO/IEC TR-24750, ** ISO/IEC 11801 Ed 2.1, *** TIA/EIA TSB-155, **** TIA/EIA-568-B.2-10
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Class E / Category 6: unscreened, 55 mClass E / Category 6: unscreened, 55 m
0 100 200 300 400 500-80
-70
-60
-50
-40
-30
-20
-10
0
Frequency f [MHz]
|GC
AB
LE(f
)|2 , C
PSA
NEX
T(f),
CPS
AFE
XT(f
) [d
B]
linkchar10GBASET(cabling='Class Eu',L=55),12-Sep-2006
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Class E / Category 6: screened, 100 mClass E / Category 6: screened, 100 m
0 100 200 300 400 500-80
-70
-60
-50
-40
-30
-20
-10
0
Frequency f [MHz]
|GC
AB
LE(f
)|2 , C
PSA
NEX
T(f),
CPS
AFE
XT(f
) [d
B]
linkchar10GBASET(cabling='Class Es',L=100),12-Sep-2006
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Classes F and EClasses F and EAA / Augmented Category 6, 100 m/ Augmented Category 6, 100 m
0 100 200 300 400 500-80
-70
-60
-50
-40
-30
-20
-10
0
Frequency f [MHz]
|GC
AB
LE(f
)|2 , C
PSA
NEX
T(f),
CPS
AFE
XT(f
) [d
B]
linkchar10GBASET(cabling='Class F',L=100),12-Sep-2006
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T2/12f =
01f =
T4/11f =
T8/31f =
T2/11f =
Achievable bit rate Achievable bit rate vsvs modulation ratemodulation rate
• Class E / Category 6: screened, 100m• Transmit power PT = 5 dBm, background noise N0 = -140 dBm/Hz• ANEXT from same kind transmission, AFEXT ignored
This motivated the choice of 800 Mbaud.800 Mbaud x 3.125 bit/dim x 4 pairs = 10 Gbit/s
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Modulation and equalization
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10GBASE10GBASE--T modulation and equalizationT modulation and equalization
• At 800 Mbaud, a 4-pair UTP cable acts like a MIMO–ISI channel.
• MIMO-OFDM cannot be used because 10GBASE-T transceiver latency is required to be ≤ 2.56 μsec
• Hence the following choice:
800 Mbaud baseband transmission using 16-PAM: 4 bit/dim, reduced to 3.125 bit/dim by 2-D alphabet partitioning and coding.
Link training: decision-feedback receiver structure with adaptive matrix feedforward filter (4x4 FFF) and scalar feedback filters (4 FBFs). Matrix FBF not needed because cable transfer function is strongly diagonal-dominated.
Data mode: Feedback filters are swapped to transmitter. Tomlinson-Harashima precoding in transmitter. Matrix FFF in receiver.
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TomlinsonTomlinson--HarashimaHarashima (TH) precoding(TH) precoding
2w
2x/ SNR ratio noise-to-Signal σσ=
1)-(M3,1, PAM-Man
±±±=∈
nkM2 ×na
3/M:MnxM 22x =σ<≤−
ny
)D(a )D(w)D(kM2)D(a)D(y ++=
2DhDh1)D(h 21 ++=≅
( ) )D(h/)D(kM2)D(a)D(x +=
nx
2wσ
)D(h/1
M2 ulomod
M2M2
nw
20
TH precoding: symbol distributionTH precoding: symbol distribution
Symbol values vs. time Symbol distribution
PA
M-1
6 ba
sic
PA
M-1
6 ex
pand
ed
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Coding and framing
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Towards LDPCTowards LDPC--coded 128coded 128--DSQ modulationDSQ modulation
• First proposal for 10GBASE-T: interleaved RS coding concatenated with 4-D 16-state TCM. Decoding complexity was low. Performance was OK with sufficient interleaving. Possibility of iterative decoding was considered.
• 10GBASE-T task force considered latency caused by RS byte interleaving/deinterleaving unacceptable.
• The majority favored short-block LDPC coded modulation, initially with a 2-D 128-point “doughnut” constellation (3.5 bit/dim).
• Finally (2048,1723) LDPC* coded 128-DSQ was adopted.
* H matrix construction is based on Generalized RS(32,2,31) code over GF(26) (similar to Djurdjevic et al., "A class of low-density parity-check codes constructed based on Reed-Solomon codes with two information symbols," IEEE Commun. Letters, vol. 7, pp. 317-319, July 2003).
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128128--point 2point 2--D constellations (3.5 bit/dim)D constellations (3.5 bit/dim)
12/)M2( utput Eprecoder oension at dimrgy per Signal ene 2x =
24M2 = 32M2 =
20 =Δ 220 =Δ
124/48/E 20x ==Δ 666.108/)3/256(/E 2
0x ==Δ
1)-(M3,1,
PAM-M
±±±=
24
128128--DSQ partitioning into 16 subsets DSQ partitioning into 16 subsets ("12 dB" partitioning)("12 dB" partitioning)
0Δ
)dB12(4 04 +Δ=Δ
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10GBASE10GBASE--T coding, framing, symbol mappingT coding, framing, symbol mapping
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Error performanceError performance
BER=10-12 @ SNR = 23.32 dB
with LDPC (2048,1723) 128-DSQ
BER=10-12 @ SNR = 31.5 dBuncoded
BER with TCM (estimated)
> 8dB coding gain
Sha
nnon
Lim
it
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128128--DSQ constellation, moduloDSQ constellation, modulo--32 extended32 extended
011 101
001 111
010 100
000 110
011 101
001 111
010 100
000 110
011 101
001 111
010 100
000 110
011 101
001 111
010 100
000 110
4 coded bits:Gray (dH = 1)
3 uncoded bits:pseudo-Gray (dH = 1 or 2)
011 101
001 111
010 100
000 110
011 101
001 111
010 100
000 110
011 101
001 111
010 100
000 110
011 101
001 111
010 100
000 110
011 101
001 111
010 100
000 110
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Metric calculation for 4 coded bitsMetric calculation for 4 coded bits
)4mod1x(llrb)x/1cPr(
)x/0cPr(log)4modx(llrb
)x/1cPr(
)x/0cPr(log
)4mod1x(llrb)x/1cPr(
)x/0cPr(log)4modx(llrb
)x/1cPr(
)x/0cPr(log
224
242
23
23
112
121
11
11
+===
===
+===
===
⎥⎦⎤
⎢⎣⎡=
⎥⎦⎤
⎢⎣⎡
++
⎥⎦⎤
⎢⎣⎡ −
−
2
1
2
1
xx
2/)15s(2/)15s(
5.05.05.05.0
1R
2x
1x
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The function The function llrb(xllrb(x))
[ ]( ) [ ]( )
[ ]( ) [ ]( ) 4x5.2
5.2x5.0
5.0x0
: 5.3x
: x 1.5
: 0.5 x1
2/)3k4(xexp2/)2k4(xexp
2/)1k4(xexp2/)0k4(xexp
ln)x(llrb2
k
2222
k
2222
≤≤≤≤
≤≤
⎪⎩
⎪⎨
⎧
−−
+
σ≅
σ+−−+σ+−−
σ+−−+σ+−−=
∑
∑∞
−∞=
∞
−∞=
0 0.5 1 1.5 2 2.5 3 3.5 4-1.5
-1
-0.5
0
0.5
1
1.5
x
2)x(
llrb
σ×
x
4
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Decision-point SNR versuscable length
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DecisionDecision--point SNR vs. cable lengthpoint SNR vs. cable length
dBm5P
dBm1P
dBm7P
dBm13P
dBm19P
T
T
T
T
T
+=−=−=−=−=
dB .5 23SNR req ≈
Cable Class E screened; worst-case ANEXT from adjacent linkstransmitting at PT = 5 dBm; AWGN = -140 dBm/Hz; ideal precoding
response, ideal receiver filter and FFF equalization
Tinymargin
32
NearNear--far problem for 10GBASEfar problem for 10GBASE--TT
• Worst case alien crosstalk configuration: short cable bundled atthe end with long cable(s)
• TX power of short link can be reduced without impacting short-link BER, and should be reduced to improve long-link BER.
hyb. hyb.
hyb. hyb.
large
small
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DecisionDecision--point SNR point SNR vsvs cable length: conclusionscable length: conclusions
• SNR margin for 100m Class E screened cable is tiny even for ideal transceiver realization
• 10GBASE-T requires TX power control
Transmit power options adopted for 10GBASE-T
Maximum power Pmax = 3.2 – 5.2 dBm
Power backoff levels: 0, -2, -4, -6, -8, -10, -12, -14 dB
Power backoff must be used for shorter cables
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Transceiver front end and echo cancellation
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10GBASE10GBASE--T transmit PSD specificationT transmit PSD specification
The 10GBASE-T Task Force could not agree on a tighter specification. This loose specification allows for a wide range of PSD shapes except one with a wider spectral notch around dc!
5
36
Transmitter frontTransmitter front--end: end: ““simplesimple””
800 Ms/scurrent DAC
TH precoder
→≅ RZ
800 Ms/s
ADC VGAReceive filter RF
Adaptive all-digital
echo canceller
1:1
VCT→IZ
Trivial FE filterf3dB = 300 MHz
RC
pF6.10C
100R
=Ω=
- power efficient at expense of missing analog hybrid function
- poor out-of-band signal suppression
- backwards termination marginal
- TX PSD depends significantly on transformer
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from THP
to FFF
)D(ECc
RC smoothing
)f(HT
ADC Receive filter
)f(GR
DAC+
)f(HE
16x16 n <≤− Trans-former
RCsmoothingTrans-former
)f(G)f(HCT≈
nz
)f(GC
nx′DAC
+ADCin6 :rangeinput ADC σ×±
ADCne
DACne
DAC & ADC precision requirementsDAC & ADC precision requirements
Decision-point SNRmmse [dB] with DAC and ADC errors only (no noise, no alien Xtalk)
31.0530.2528.1710
<28<28<259
<25<25<258
1098
31.8928.18<2513
28.36<28<2512
<25<25<2511
11109
enob(DAC)100 m: "simple"
front-end requires unrealistic DAC &
ADC precision, other approach
is needed.
enob
(AD
C)
50 m Class E 100 m Class E
enob(DAC)
enob = equivalent number of bits
enob
(AD
C)
38
Transceiver realization
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Transceiver block diagramTransceiver block diagram
40
Partitioned frequencyPartitioned frequency--domain filterdomain filter
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Start-up procedure
42
StartStart--up procedureup procedure
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Status and outlook
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The IEEE P802.3an (10GBASEThe IEEE P802.3an (10GBASE--T) time lineT) time line
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10GBASE-T: the ultimate copper PHY? Pushing everything to the limit: data rate, cable length, transceiver front-end, signal converters, modulation and coding, length of adaptive filters, speed in every respect
Very large chip. Estimated ≈ 10M gates, ≈ 10 W (65nm)
Big challenge for 100 m: front-end DACs, ADCs
Main/initial market for 10Gbit/s over copper: short reach
Intermediate solutions …
Short-haul 10GBASE-T implementations: ≤ 30 m
“Copper FiberChannel”: 1, 2, 4 Gbit/s; 50 – 100 m Cat5/5A
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