RE: 1000BASE-T PCS question
- To: "Chang, Edward S" <Edward.Chang@xxxxxxxxxx>
- Subject: RE: 1000BASE-T PCS question
- From: "David Martin" <dwmartin@xxxxxxxxxxxxxxxxxx>
- Date: Thu, 27 May 1999 17:49:30 -0400
- Cc: HSSG_reflector <stds-802-3-hssg@xxxxxxxx>
- Sender: owner-stds-802-3-hssg@xxxxxxxxxxxxxxxxxx
I guess my point wasn't clear. It isn't the RX circuitry after the O/E
conversion that is the limiting
factor. The SONET scrambler provides sufficient DC balance that the data
slicing threshold (related
to base-line wander) and sampling point (related to clock drift) are not
difficult to optimize. The
limiting factor is enough RX optical power to provide a sufficiently open
eye.
It looks like there will be lots of good discussion next week.
...Dave
-----Original Message-----
From: Chang, Edward S [SMTP:Edward.Chang@xxxxxxxxxx]
Sent: Thursday, May 27, 1999 4:07 PM
To: Martin, David [SKY:1I63-M:EXCH]; Chang, Edward S
Cc: HSSG_reflector
Subject: RE: 1000BASE-T PCS question
Dave:
Thanks for inputs.
I am not surprised that some link will keep running for equivalent
of seven
years to get one error.
I agree if you allocate more photons/bit, higher S/N ratio, BER will
be
improved. You mean OC-192 specification sets the receiver minimum
input
power at the BER of 10^-12. Sure it can be done. We can even
assume that
no errors up to O/E conversion just for the sake of discussion.
However,
after O/E conversion, the base-line wander and PLL clock drift
caused by
excessive run-length will generate bit errors. Therefore, just more
photons/bit will not improve over all BER, you may have something
more.
Ed Chang
Unisys Corporation
Edward.Chang@xxxxxxxxxxx
-----Original Message-----
From: David Martin [mailto:dwmartin@xxxxxxxxxxxxxxxxxx]
Sent: Thursday, May 27, 1999 1:09 PM
To: Chang, Edward S
Cc: HSSG_reflector
Subject: RE: 1000BASE-T PCS question
I'd like to clarify the residual BER spec for telecom systems. For
OC-48
rate SONET systems, the
end-of-life BER customer requirement is 1E-12 (no FEC). For OC-192
rate the
value is the same,
1E-12 without FEC (c.f. BCR GR-1377-CORE Section 4.2.1, page 4-3)
and 1E-15
with FEC (customer
requirement).
Note that some of our OC-48 customers, who have had systems running
for up
to 10 years, are
measuring RBERs in the 1E-16 range (about one error every 7 years on
a DS-3
trib). The OC-192
systems out there will need to run awhile longer to acquire similar
performance data.
The point here is that the SONET scrambler is not the limiting issue
in
achieving low error rates. The
issue is having enough photons/bit, or optical SNR (eye-Q) to
accurately
recover the data.
...Dave
David W. Martin
Nortel Networks
+1 613 765-2901
+1 613 763-2388 (fax)
dwmartin@xxxxxxxxxxxxxxxxxx
========================
-----Original Message-----
From: Chang, Edward S [SMTP:Edward.Chang@xxxxxxxxxx]
Sent: Thursday, May 27, 1999 9:16 AM
To: Jaime Kardontchik; rtaborek@xxxxxxxxxxxxxxxx
Cc: HSSG_reflector
Subject: RE: 1000BASE-T PCS question
Jami:
We have been discussing scramble code versus block code,
8B/10B in
particular, for a while on the reflector. Many people have
the same
feeling
that scrambled code has run length much longer than
desirable to
cause
base-line wander, and PLL clock drift; as a result, it can
not meet
the BER
of 10^-12
The SONET using scramble code has BER of 10^-10, which is
not
recommended
for the datacom file transfer. I believe the BER of
1000BASE-T is
10^-10,
again, which is not recommended for file transfer.
You can prove the BER is 10^-12 for the 4D symbol code to
enable it
to be
used for all purposes, or stay at 10^-10 BER to be used, as
802.3ab,
for
less critical data handling.
Please clarify.
Ed Chang
Unisys Corporation
Edward.Chang@xxxxxxxxxx