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Re: [802.3_100GCU] FEC and error ratios.



Title: RE: MMF Ad Hoc meeting, 8.30am (pacific) Thursday 29th November 2012

Mike,

 

Yes, the discussion we were having below was concerned with FEC frames (5280 bits long) and the text in P802.3bj D 1.2 which says:

“For a complete Physical Layer, this specification is considered to be satisfied by a frame error ratio less than 1.7 × 10–10 for 64 octet frames with minimum inter-packet gap.”

Is talking about Ethernet frames.

That is why I was careful to use the term “FEC frame error ratio” in my original post.

 

However, I am struggling to understand where the value of 1.7E-10 comes from.  I had thought that it was supposed to be the FER for a 64-octet frame assuming random errors and a BER of 1E-12.  That would be = 1-(1-P_bit_error)^512 = 5.12E-10.  The text copied above doesn’t say where this FER is evaluated (I think that this needs fixing, I will try to remember to comment).  The value of 5.12E-10 would be appropriate to the MAC/PLS service interface where the objective of 1E-12 BER applies.

 

If we assume that the intent of the text copied above is that the FER has to be met after the FEC but before the descrambler, then the error multiplication of a factor of three must be considered and dividing 5.12E-10 by 3 gives 1.71E-10.  If this is the case, then I am missing something because the FER before the descrambler and the FER after the descrambler do not differ by a factor of 3, although the BER’s do.

 

The minimum IPG is 8 bits.  This means that an error in an Ethernet frame at the descrambler input will not cause errors in the following frame unless the original error occurs in the last 58 - 8 = 50 bits.  For randomly distributed errors, this means that the probability of an error in one frame affecting the next is about 0.1 which would indicate a FER at the descrambler input of about 5.12E-10/1.1 = 4.65E-10.

 

If one assumed that the errors were not randomly distributed, but occurred in groups of 8 for KR4/CR4 FEC and 16 for KP4 FEC, then the ratio of the FER before the descrambler to the FER after the descrambler would still be less than 2.  (Error multiplication can only affect the next frame). And the number would be different for Clause 94 than for Clauses 92 and 93.

 

What am I missing?

 

Regards,

Pete Anslow | Senior Standards Advisor
43-51 Worship Street | London, EC2A 2DX, UK
Direct +44 2070 125535
|

 

From: Mike Dudek [mailto:mike.dudek@xxxxxxxxxx]
Sent: 21 November 2012 23:20
To: Anslow, Peter; John Petrilla; Jonathan King; STDS-802-3-100GNGOPTX@xxxxxxxxxxxxxxxxx; a_flatman@xxxxxxxxxxxxx; Abbott, John S Dr; Amezcua, A. (Adrian); Anthony Torza; Bernstein, Gary; Brad Booth; Daniel Dove; Ephrem Wu; Gary Nicholl (gnicholl); Harry Fu; Jack Jewell; Jeffery Maki; Mark Gustlin (mark.gustlin@xxxxxxxxxx); Keith Nellis; Kolesar, Paul; Lian Zhao; Martin Gilpatric; Phil.McClay@xxxxxx; Mike Peng Li; mnowell@xxxxxxxxx; Oren Sela; Piers Dawe; Rick.Pimpinella@xxxxxxxxxxx; Robert Coenen; ryan.latchman@xxxxxxxxxxxxx; Scott Kipp; Shmuel Levy; Swanson, Steven E; Tracy, Nathan L; Vipul Bhatt; Mark Gustlin (mark.gustlin@xxxxxxxxxx); John Nolan; Healey, Adam B (Adam); Ran, Adee; cid@xxxxxxxxxxxxxx; Stephen Bates
Subject: FEC and error ratios.

 

I’ve added some folk from the .bj task force FEC ad-hoc to this thread and changed the title.   As stated in a separate e-mail I think that it would be good if 802.3bj and 802.3bm came to a common understanding of the error ratio requirements.   First I’m wondering whether we may be having some confusion between FEC frames and Ethernet Packets (aka frames).    The 802.3bj has created a requirement (in draft 1.2) that is stated in terms of frame error rate, but in context I think it means packet error rate, and I think that may be the most meaningful for a system.    Obviously if it is the Packet Error Rate that really matters to the system then we also have to consider how shorter packets get distributed within FEC frames, (or FEC frames are distributed in long packets).  I think the thread below is talking about the FEC frame error rate which I think would be just an intermediate calculation point.

 

Mike Dudek 

QLogic Corporation

Senior Manager Signal Integrity

26650 Aliso Viejo Parkway

Aliso Viejo  CA 92656

949 389 6269 - office.

Mike.Dudek@xxxxxxxxxx

 

 

From: Anslow, Peter [mailto:panslow@xxxxxxxxx]
Sent: Wednesday, November 21, 2012 9:25 AM
To: John Petrilla; Jonathan King; STDS-802-3-100GNGOPTX@xxxxxxxxxxxxxxxxx; a_flatman@xxxxxxxxxxxxx; Abbott, John S Dr; Amezcua, A. (Adrian); Anthony Torza; Bernstein, Gary; Brad Booth; Daniel Dove; Ephrem Wu; Gary Nicholl (gnicholl); Harry Fu; Jack Jewell; Jeffery Maki; Keith Nellis; Kolesar, Paul; Lian Zhao; Martin Gilpatric; Phil.McClay@xxxxxx; Mike Peng Li; Mike Dudek; mnowell@xxxxxxxxx; Oren Sela; Piers Dawe; Rick.Pimpinella@xxxxxxxxxxx; Robert Coenen; ryan.latchman@xxxxxxxxxxxxx; Scott Kipp; Shmuel Levy; Swanson, Steven E; Tracy, Nathan L; Vipul Bhatt
Subject: RE: MMF Ad Hoc meeting, 8.30am (pacific) Thursday 29th November 2012

 

John,

 

a) No, I wouldn’t.  The probability of a frame containing 5280 bits having one or more errors in it is one minus the probability that all of the bits are correct.  The probability that they are all correct is the probability that any one bit is correct raised to the power of the number of bits in the frame.  Hence the formula.  If the BER is low, then this is dominated by the case where there is only one error per frame and it evaluates to be very close to 1E-12 * 5280 = 5.28E-9.  When the BER becomes lower, say 1E-5, the effect of more than one error starts to be seen and it evaluates to 5.14E-2 rather than 5.28E-2.

 

b) A very simple minded analysis might say that the process in a) can be reversed by taking the Frame Error Ratio (FER) and applying the formula:

BER = 1-(1-FER)^(1/5280) which evaluates to 1E-12 for FER = 5.28E-9 and is approximately FER/5280 unless the BER is high.  However, this conversion assumes that the errored frames have random errors (since it is the reversal of the calculation in a).  However, as you point out, the effect of FEC is to remove the errors from all frames with 7 or less symbol errors.  This means that any frame that contains an error contains at least 8 errors.  (8 is actually the dominant case, 9 errors in a frame is much less probable).  Consequently, the formula to go from the FER to the BER is approximately BER = FER*8/5280.

 

Hope that makes my meaning clear,

Pete Anslow | Senior Standards Advisor
43-51 Worship Street | London, EC2A 2DX, UK
Direct +44 2070 125535
|

 

From: John Petrilla [mailto:john.petrilla@xxxxxxxxxxxxx]
Sent: 21 November 2012 16:54
To: Anslow, Peter; Jonathan King; STDS-802-3-100GNGOPTX@xxxxxxxxxxxxxxxxx; a_flatman@xxxxxxxxxxxxx; Abbott, John S Dr; Amezcua, A. (Adrian); Anthony Torza; Bernstein, Gary; Brad Booth; Daniel Dove; Ephrem Wu; Gary Nicholl (gnicholl); Harry Fu; Jack Jewell; Jeffery Maki; Keith Nellis; Kolesar, Paul; Lian Zhao; Martin Gilpatric; Phil.McClay@xxxxxx; Mike Peng Li; mike.dudek@xxxxxxxxxx; mnowell@xxxxxxxxx; Oren Sela; Piers Dawe; Rick.Pimpinella@xxxxxxxxxxx; Robert Coenen; ryan.latchman@xxxxxxxxxxxxx; Scott Kipp; Shmuel Levy; Swanson, Steven E; Tracy, Nathan L; Vipul Bhatt
Subject: RE: MMF Ad Hoc meeting, 8.30am (pacific) Thursday 29th November 2012

 

Hello Pete

 

Thanks

 

a) Regarding item 6) below, why would you not use binomial statistics?

b) Further down, you write, “Because the errors with FEC occur in groups of 8 or more per FEC frame, the BER in this case will be at least 8E-12.”  I’m not sure what you mean.  Could you clarify?

 

Regards,

John

 

From: Anslow, Peter [mailto:panslow@xxxxxxxxx]
Sent: Wednesday, November 21, 2012 5:32 AM
To: John Petrilla; Jonathan King; STDS-802-3-100GNGOPTX@xxxxxxxxxxxxxxxxx; a_flatman@xxxxxxxxxxxxx; Abbott, John S Dr; Amezcua, A. (Adrian); Anthony Torza; Bernstein, Gary; Brad Booth; Daniel Dove; Ephrem Wu; Gary Nicholl (gnicholl); Harry Fu; Jack Jewell; Jeffery Maki; Keith Nellis; Kolesar, Paul; Lian Zhao; Martin Gilpatric; Phil.McClay@xxxxxx; Mike Peng Li; mike.dudek@xxxxxxxxxx; mnowell@xxxxxxxxx; Oren Sela; Piers Dawe; Rick.Pimpinella@xxxxxxxxxxx; Robert Coenen; ryan.latchman@xxxxxxxxxxxxx; Scott Kipp; Shmuel Levy; Swanson, Steven E; Tracy, Nathan L; Vipul Bhatt
Subject: RE: MMF Ad Hoc meeting, 8.30am (pacific) Thursday 29th November 2012

 

John,

 

Your proposal with changes / comments in red.

 

 

1) For the 100 m MMF objective, definition will be based on the assumption that RS-FEC, RS(528, 514), defined in Clause 91 for 100GBASE-CR4 or 100GBASE-KR4 (hereinafter referred to as KR4 FEC) is available.

2) All of the error correction capability of KR4 FEC is allocated to the link supporting the 100 m MMF objective.

3) The incoming BER for the MMF PMD (including any errors generated by CAUI-4 if present) will be equal to or better than 10^-12 and the target corrected BER for the link output will be equal to or better than 10^-12.

4) KR4 FEC uses 528 symbols of 10 bits/symbol yielding a frame size of 5280 bits.

5) There are 514 data symbols and 14 parity symbols providing the ability to correct (528-514)/2 = 7 corrupted symbols.

6) The Frame Error Ratio, FER, for operation without FEC for a BER = 1E-12 using P_frame_error = 1-(1-P_bit_error)^5280 is 5.28E-9

7) In a optical link, assume bit errors are noise generated, independent and random. Further, since there will be no DFEs, error multiplication is not expected before the descrambler.

8) The worst case that can be corrected is 7 10-bit symbols in error.

 

Now, I get stuck because I think we need to agree on what the error criterion at the FEC output is.

 

I think that John has assumed that the FEC Frame error ratio (FER) is 5.28E-9 i.e. the same FER as you would get if you had randomly distributed errors and a BER of 1E-12 or in other words, the same FER as you would expect if you were operating without FEC.

Because the errors with FEC occur in groups of 8 or more per FEC frame, the BER in this case will be at least 8E-12.

 

Before going further and calculating what input BER corresponds to a FEC FER of 5.28E-9, I think we need to get agreement that this is the criterion that we are going to use as it is not strictly in agreement with the objective: “Support a BER better than or equal to 10-12 at the MAC/PLS service interface”

 

Regards,

Pete Anslow | Senior Standards Advisor
43-51 Worship Street | London, EC2A 2DX, UK
Direct +44 2070 125535
|

 

From: John Petrilla [mailto:john.petrilla@xxxxxxxxxxxxx]
Sent: 21 November 2012 01:58
To: Jonathan King; STDS-802-3-100GNGOPTX@xxxxxxxxxxxxxxxxx; a_flatman@xxxxxxxxxxxxx; Abbott, John S Dr; Amezcua, A. (Adrian); Anslow, Peter; Anthony Torza; Bernstein, Gary; Brad Booth; Daniel Dove; Ephrem Wu; Gary Nicholl (gnicholl); Harry Fu; Jack Jewell; Jeffery Maki; Keith Nellis; Kolesar, Paul; Lian Zhao; Martin Gilpatric; Phil.McClay@xxxxxx; Mike Peng Li; mike.dudek@xxxxxxxxxx; mnowell@xxxxxxxxx; Oren Sela; Piers Dawe; Rick.Pimpinella@xxxxxxxxxxx; Robert Coenen; ryan.latchman@xxxxxxxxxxxxx; Scott Kipp; Shmuel Levy; Swanson, Steven E; Tracy, Nathan L; Vipul Bhatt
Subject: RE: MMF Ad Hoc meeting, 8.30am (pacific) Thursday 29th November 2012

 

Hello Jonathan

 

Thanks for proposing the meeting and especially for the 8:30 AM Pacific start time.

 

Perhaps we can make some progress on FEC details prior to the meeting.  Along that line I’ll propose the following strawman, so that we may have common values to use for Q and BER in our various analyses.

 

1) For the 100 m MMF objective, definition will be based on the assumption that RS-FEC, RS(528, 514), defined in Clause 91 for 100GBASE-CR4 or 100GBASE-KR4 (hereinafter referred to as KR4 FEC) is available.

2) All of the error correction capability of KR4 FEC is allocated to the link supporting the 100 m MMF objective.

3) The incoming BER for the MMF PMD will be equal to or better than 10^-12 and the target corrected BER for the link output will be equal to or better than 10^-12.

4) KR4 FEC uses 528 symbols of 10 bits/symbol yielding a frame size of 5280 bits.

5) There are 514 data symbols and 14 parity symbols providing the ability to correct (528-514)/2 = 7 corrupted symbols.

6) The Frame Error Rate, FER, for operation without FEC for a BER = 1E-12 using binomial statistics (probability density function) is 5.30E-9.  

7) In a optical link, assume bit errors are noise generated, independent and random. Further, since there will be no DFEs, error multiplication is not expected.

8) The worst case that can be corrected is 7 bit errors for 7 symbols with 1 bit error/symbol.

9) The case equivalent to operation without KR4 FEC is where 8 symbols are corrupted, since for only 7, all errors are corrected.

10) For operation with KR4 FEC, a BER = 6.90E-5 yields an FER of 5.30E-9 (Qi = 3.8119) to match the FER for a BER = 1E-12 (Q = 7.034) without FEC and 10Log(Qo/Qi) = 2.66 dB.

11) The link model supporting the 100 m MMF objective will use a value of 3.8119 for Q.

 

If there are objection or counter proposals, let’s try to resolve them before the ad hoc meeting.

 

Regards,

John

 

From: Jonathan King [mailto:jonathan.king@xxxxxxxxxxx]
Sent: Monday, November 19, 2012 6:11 PM
To: STDS-802-3-100GNGOPTX@xxxxxxxxxxxxxxxxx; a_flatman@xxxxxxxxxxxxx; Abbott, John S Dr; Amezcua, A. (Adrian); Anslow, Peter; Anthony Torza; Bernstein, Gary; Brad Booth; Daniel Dove; Ephrem Wu; Gary Nicholl (gnicholl); Harry Fu; Jack Jewell; Jeffery Maki; John Petrilla; Keith Nellis; Kolesar, Paul; Lian Zhao; Martin Gilpatric; Phil.McClay@xxxxxx; Mike Peng Li; mike.dudek@xxxxxxxxxx; mnowell@xxxxxxxxx; Oren Sela; Piers Dawe; Rick.Pimpinella@xxxxxxxxxxx; Robert Coenen; ryan.latchman@xxxxxxxxxxxxx; Scott Kipp; Shmuel Levy; Swanson, Steven E; Tracy, Nathan L; Vipul Bhatt
Subject: RE: MMF Ad Hoc meeting, 8.30am (pacific) Thursday 29th November 2012

 

Dear all,

I’d like to propose we meet for an MMF Ad Hoc conference call (via Webex) on 29th November, 8.30am Pacific Standard time (4.30pm GMT) .

Call duration will be up to 1.5 hours, but can end earlier if meaningful discussion ends.

If there aren’t too many objections I’ll confirm the date/time in a couple of days, and send out call details.

Our main goal is to progress development of baseline proposals for the 100m reach  and 20m reach MMF objectives, and hopefully remove a few more TBDs from the proposed Tx and Rx spec  tables.

Please send presentation requests to me by close of business on 28th November-  (I’ll send out  the  agenda that day).

Best wishes

jonathan