PTP/Syncronized Ethernet maturity
marc101.maxmaok at gmail.com
Wed Sep 9 12:03:38 UTC 2020
Gratefully thanks for your detailed sharing. Very informative and helpful
to our network's synchronization planning and operation.
We'll take your experiences into discussion and consideration. Get back to
share our experiences with you soon.
Thanks and best regards,
On Wed, Sep 9, 2020 at 4:50 PM geir egeland <geir.egeland.ietf at gmail.com>
> Hi Taichi,
> It depends. GNSS at the cell site has its own operational challenges, for
> example making sure that the antenna has a clear enough view of the sky. A
> challenge in Asia is that very little of the fiber is in the ground, hence
> multiple fiber cuts happen on a daily basis which changes the path length
> when restoration mechanisms kicks in. A change in the path length is not a
> problem for PTP, but it require that we know the path asymmetry on all
> possible fiber paths between the master and the slave (we need to use
> protection on layer 1 in Asia due to the frequent fiber cuts).
> Another challenge with GNSS is that we experience that the GNSS is either
> jammed or even worse, that the GNSS is spoofed.
> When we did the PTP design, we also believed that the length of the fiber
> path length would be equal in both direction. However, in some of our old
> Metro networks, the line amplifier have embedded Dispersion
> Compensating Fiber (DCF) to compensate for the chromatic dispersion of
> different wavelengths. The length of fiber within DCF modules to compensate
> for the same length of fiber may vary significantly. Other parts in the
> optical domain can also cause asymmetry, e.g.transponders, software FEC, or
> FEC in general, and digital signal processors in coherent optical systems.
> Asymmetry increases with link speed, so we could consider running PTP over
> 1GE interfaces, but this is a challenge in our Core networks.
> We can overcome the DCF (DCF is cheap) issue by either measure the
> asymmetry of every fiber hop (not practical possible), change the DCP
> modules to Bragg filters (expensive), or deploy grand masters in the
> access/aggregation network in order to have less asymmetry impact from the
> fiber network.
> When it comes to the instabilities with PTP implementation, we try to work
> with the vendors so that they fix failing line cards, port flapping etc.
> However, its not always easy to get the vendor’s attention on PTP issues.
> OAM for PTP is another challenge, i.e. how can we make sure that the clock
> is healthy? We plan to solve this by deploying GNSS at certain locations in
> the network and use equipment that can compare the difference between
> GNSS-input and the received PTP clock.
> So key message is that PTP does not work out of the box, it requires
> significant engineering effort. GNSS has many issues as well, and in
> certain parts of Europe we cannot rely on GNSS only. So it is not an
> either-or, - we need both.
> best regards,
> On 8 Sep 2020, at 18:11, m.Taichi <marc101.maxmaok at gmail.com> wrote:
> Hi Geir,
> Can we say, from your production network experiences across Asia and
> Europe, that getting synchronization clock signal via GNSS receiver
> directly on each cell site is a much more reliable, stable, and simpler way
> than getting it by network-based PTP? Especially when there is WDM link
> used in between the BC and Slave Clock?
> Why does WDM link cause path asymmetry? I thought the optical fibers carry
> forward link and reverse link are almost equal in length (distance). Aren't
> What are your solutions to overcome the PTP synchronization instability
> problems in your TDD 4G/5G networks?
> Thanks and best regards,
> On Tue, Sep 8, 2020 at 11:09 PM geir egeland via NANOG <nanog at nanog.org>
>> We have mobile NWs in both Asia and Europe and also experience a lot of
>> issues with PTP, - almost with every vendor.
>> The instabilities, SW-bugs etc. related to PTP seems to indicate that
>> very little testing of this code has been done in production networks. In
>> some deployments we have been able to produce a clock service by installing
>> GNSS on the cell-site. However, in other countries there are regulatory
>> directives that the phase sync must be PTP/Network based.
>> Currently, the optical domain is causing us huge problems when we try to
>> engineer a T-BC/PTP solution. This is due to the path asymmetry that exist
>> in the WDM/fiber domain. In some networks we have a lot of DCF in the fiber
>> path and the only way we can get visibility in the asymmetry on these fiber
>> hops is to measure in both direction:(
>> Also, running T-BC over WDM/OTN will simply not work as the phase error
>> introduced more or less eats up the phase error budget for 4G/5G
>> best regards,
>> On 5 Sep 2020, at 00:17, Macho Pellegrini via NANOG <nanog at nanog.org>
>> Hello everybody,
>> We have deployed PTP in our mobile NW since late 2019 as a part of the
>> 4G/5G, however we are seeing a lots of instabilities and interop issues, a
>> lot of the issues have ended up with SW bugs in the OS, I have no specific
>> question, however I got the impression that the technology/protocol is not
>> yet mature, anybody here got his hands dirty with PTP?
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