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Leon, Thanks for the additional follow up. I spent some more time with the various relevant portions of the spec, and am starting to understand it a bit better; thanks for bearing with me. Based on that, it seems like even if SIGNAL_DETECT is set to OK based on the presence of noise energy, at the PMA and/or FEC layers the device/system will detect that it’s not a valid signal and stop there.
Whereas if SIGNAL_DETECT is set to FAIL, even if there’s actually a valid signal the system won’t work. That would seem to suggest we want to bias things toward a lower threshold for SIGNAL_DETECT, so that we allow valid low power signals to work, and just
rely on higher layers to deal with a false OK due to a high noise floor. Thoughts? Am I still missing something? Thanks.
From: Leon Bruckman <leon.bruckman@xxxxxxxxxx> Hi Matt, According to D2.0 clause 153.2.1 SIGNAL_OK is conditioned in its way to the MAC by fec_align_status: “The SIGNAL_OK parameter of the FEC:IS_SIGNAL.indication primitive can take one of two values:
OK or FAIL. The value is set to OK when the FEC receive function has identified codeword boundaries as indicated by fec_align_status equal to true. That value is set to FAIL when the FEC receive function is unable to reliably establish codeword boundaries
as indicated by fec_align_status equal to false. When SIGNAL_OK is FAIL, the rx_bit parameters of the FEC:IS_UNITDATA_i.indication primitives are undefined.” Something similar is also found in the text of clause 152.2. Also, trowbridge_3ct_01_200528.pdf showed the probability of false synchronization to be insignificant. Hope this helps, Leon From: Matthew Schmitt [mailto:m.schmitt@xxxxxxxxxxxxx]
In continuing to think about this, I realized I should also have asked about the implications of the converse here. Pete’s explanation of what happens when SIGNAL_DETECT is set to FAIL was helpful, but what if SIGNAL_DETECT is set to OK when in fact there isn’t a good signal? What are the implications there? My assumption is that while the device might set that primitive to OK – meaning it thinks there’s a signal there – at some other point in the process of receiving the signal there will be another indicator
that in fact there isn’t a valid signal present, and that will cut things off. If not, then I definitely see where that could be a major issue. Thanks.
From: Matt Schmitt <m.schmitt@xxxxxxxxxxxxx> Leon and Pete, Thanks much for the clarification – that’s more or less what I suspected, but I wanted to confirm that I wasn’t coming to an incorrect conclusion. In that case, it seems like we would want to bias things to not set SIGNAL_DETECT to FAIL if there is, in fact, a valid signal. In looking at the proposed response to the various comments that touch on this
topic – which seems to go in the other direction, but with a TBD note about this case – I will be very interested in seeing how such a proposal would address this issue. Especially since sensitivity down to -30 dBm is critical for the MSO access network business
case, which is a key part of the broad market potential. Thanks again. Matt From: "pete@xxxxxxxxxxxxxxx" <pete@xxxxxxxxxxxxxxx> CableLabs WARNING: The sender of this email could not be validated and may not match the
person in the "From" field. Matt, The value of the SIGNAL_DETECT variable is passed upwards in the stack via the PMD:IS_SIGNAL.indication primitive. See 154.2. This signal is passed through successive layers above this as shown in Figure 80-4a. The PMA sublayer combines the signal passed to it by the PMD sublayer with its own logic (SIL) as described in Figure 83-5 and the text below it. The combined signal is passed to the SC-FEC sublayer via PMA:IS_SIGNAL.indication
primitive. The SC-FEC sublayer uses this signal to set the variable signal_ok (see 153.2.4.1.1): This variable is used in Figure 153-7 (SC-FEC synchronization state diagram) where it is one of the conditions causing the synchronization process to restart. As a consequence of the above, if the PMD sublayer sets SIGNAL_DETECT to FAIL, the link is brought down. Regards, Pete Anslow (pete@xxxxxxxxxxxxxxx) From: Leon Bruckman <leon.bruckman@xxxxxxxxxx>
Hi Matt, I think you are right. According to 802.3 clause 91.2: When SIGNAL_OK is FAIL, the rx_bit parameters of the FEC:IS_UNITDATA_i.indication primitives are undefined. This implies that if this signal is FAIL data is not reliable. According to Table 154-5, there are very specific conditions for SIGNAL_OK to be set to OK or FAIL, while for other conditions (last
row in the table) it is unspecified, so in my opinion it may be set to FAIL or OK, but you can not rely on it. To summarize: For the data to flow normally SIGNAL_OK must be set to OK. Note that this was the reason for changing the 802.3ct framing scheme (avoid frequent frame losses). You can see the details
in trowbridge_3ct_01_200528.pdf. Best regards, Leon From: Matthew Schmitt [mailto:m.schmitt@xxxxxxxxxxxxx]
One of the key issues I believe that we as a group are going to need to resolve to move 802.3ct forward is the definition of when to set SIGNAL_DETECT to FAIL. As a part of that discussion, it would help me to better understand what happens when SIGNAL_DETECT is set to FAIL. My assumption is that a device would use that to determine that there was not a valid signal
and therefore could not operate. However, I’m also aware enough to know that I’m making an assumption which may or may not be correct. Therefore, it would help me greatly if some of those that know 802.3 better than I could help me understand the implications
to the system for setting SIGNAL_DETECT to FAIL, particularly when there is in fact a valid signal present. Thanks for any help.
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