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10 Gb/s PON FEC-Framing Contributors names Sept 2006.

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Presentation on theme: "10 Gb/s PON FEC-Framing Contributors names Sept 2006."— Presentation transcript:

1 10 Gb/s PON FEC-Framing Contributors names Sept 2006

2 Introduction Presentations in July seemed to demonstrate general consensus on: –FEC is definitely needed for 10G –FEC should be at the lowest layer There are two parts to the FEC puzzle –‘Framing,’ or how to arrange the bits –‘Algorithm,’ or the actual math of FEC This set of slides concentrates on framing

3 FEC framing FEC will be applied at the lowest layer –Below the 64b66b sub-layer –Right before the PMA FEC sub-layer will be responsible for obtaining codeword lock, because without it, FEC is impossible –Frame lock must work with extensive errors –In the upstream, lock must work very fast 64b66b sub-layer will be handed aligned data, so there is no need for its own framing system

4 FEC framing structure issues There are several differently sized data objects in the 10G EPON technology that we should consider: –64b66b blocks, 6.4 ns long –MPCP time quanta, 16 ns long –FEC codeword, (yet to be determined) The simplest and most efficient system will –Arrange objects so sizes are related by ratios of small integers –Result in a final line-rate that is a small integer ratio of the input MAC rate

5 64b66b and time quanta The least common denominator of time quanta and 64b66b blocks is 32 ns –5 blocks –2 time quanta Regardless of FEC code choice, if we want to keep things neat, then time-quanta should always be specified in even numbers

6 RS code as an example For this presentation, we will consider the tried and true RS(239,255) code (and shortened variants) as a example code –This gives us a concrete set of code constraints to work out the method of solution –This is not meant to favor RS over other codes As the PMD analysis moves forward, the choice of FEC algorithm will get clearer However, the basic ideas presented here will remain the same

7 Form of FEC codeword A FEC codeword will contain three important items –Framing pattern –User data –FEC parity In continuous mode systems, framing pattern is typically short, and state machine with long memory is used to lock onto codewords In burst-mode systems, framing pattern is longer, to provide instant lock-on –This can occur once at the beginning of the frame, with no further framing structure required

8 Good codeword arrangements for 66b blocks Maximum number of 66b blocks that fit is 28 –1848 bits payload –40 bits synchronization –128 bits parity –252 total bytes: 9/8 line rate With an even number of quanta, 25 blocks fit –1650 bits payload –22 bits synchronization –128 bits parity –225 total bytes: 9/8 line rate

9 Choice of 64b66b encoding The 2 bit header in 64b66b is redundant, since FEC sub-layer will be aligning the data –Can reduce to 1 bit (the T-bit) to increase effciency Sounds good, but redundant bits in the payload could be used for auxilliary alignment purpose, so sending 66b blocks is not useless

10 Good codeword arrangements for 65b blocks Maximum number of 65b blocks that fit is 29 –1885 bits payload –17 bits synchronization –128 bits parity –2030 total bits: 35/32 line rate With an even number of quanta, 25 blocks fit –1625 bits payload –22 bits synchronization –128 bits parity –1775 total bits: 71/64 line rate

11 Downstream FEC synchronization In the downstream, any of the above mentioned framing lengths would work –We would adjust the state machine parameters to obtain whatever lock probabilities we wanted –For reference, 2^64 was considered a ‘good lock’ in the 66b system –2~4 sync patterns will produce similar results

12 Upstream FEC synchronization Two phases of synchronization Initial lock requires a larger and error-resistant sequence that can reliably produce a unique autocorrelation signal –For reference, merely 20 bits is recommended for G- PON operating at 1e-4 raw BER Maintenance is nearly redundant (protects against clock slips – how frequent are they?) but probably will be included to retain clock frequency harmonization


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