Looking at EDFA options... they are all ~1500nm as far as I can tell. Is there a specific model you are talking about? thanks, -Randy ----- On Sep 27, 2021, at 10:25 AM, Dan Murphy <dmurphy@pilotfiber.com> wrote:
Are you saying we could use normal QSFP28 LR4 or ER4 modules with an amplifier in between? Yes, that is the idea from 30,000 ft. Fun fact, the ER4 optics you mention are amplified inside the pluggable in a very similar manner to how these EDFA systems work.
Basically: QSFP28 100G ER <-> EDFA Amp <-> OSP/dark fiber <-> EDFA Amp <-> QSFP28 100G ER Very simple, and from the Juniper gear's POV, there is no funny business. All the magic happens down at layer 0.
The systems are commoditized and pretty easy to find. I saw a few people on this thread mention Solid Optics, personally I have not heard of them, but I would trust LB's recommendation. I've used systems by other manufacturers in the past and wasn't crazy about them. I don't want to flame that manufacturer since they read this mailer, and who knows, the issues I saw might have been isolated to manufacturing issues, but I still wouldn't recommend them.
The learning curve is pretty low, and the manufacturers of this gear are ~usually~ very eager to guide basic implementation. However, ping me off list, or on here, if you have any deeper questions about this.
Have a good week everyone!
On Sun, Sep 26, 2021 at 12:17 AM Lady Benjamin Cannon < [ mailto:lb@6by7.net | lb@6by7.net ] > wrote:
My guess is that he was talking about the difference between a 100gbit/sec stream of ethernet frames with no error correction, and a 112gbit/sec (or so, depending on scheme) stream of transport with FEC (Forward Error Correction - which is essentially just cramming extra bits in there incase they are needed.
Ethernet has to re-transmit instead, and that can cause performance degradation and jitter, until it just quits working altogether. Systems implementing FEC are much
(This is a guess, there’s a chance something else was meant by this)
-LB.
On Sep 25, 2021, at 1:55 AM, Etienne-Victor Depasquale via NANOG < [ mailto:nanog@nanog.org | nanog@nanog.org ] > wrote:
Bear with my ignorance, I'm genuinely surprised at this:
Does this have to be Ethernet? You could look into line gear with coherent optics.
Specifically, do you mean something like: "does this have to be IEEE-standardized all the way down to L1 optics?" Because you can transmit Ethernet frames over line gear with coherent optics, right ?
Please don't flame me, I'm just ignorant and willing to learn.
Cheers,
Etienne
On Fri, Sep 24, 2021 at 11:25 PM Bill Blackford < [ mailto:bblackford@gmail.com | bblackford@gmail.com ] > wrote:
Does this have to be Ethernet? You could look into line gear with coherent optics. IIRC, they have built-in chromatic dispersion compensation, and depending on the card, would include amplification.
On Fri, Sep 24, 2021 at 1:40 PM Randy Carpenter < [ mailto:rcarpen@network1.net | rcarpen@network1.net ] > wrote:
How is everyone accomplishing 100GbE at farther than 40km distances?
Juniper is saying it can't be done with anything they offer, except for a single CFP-based line card that is EOL.
There are QSFP "ZR" modules from third parties, but I am hesitant to try those without there being an equivalent official part.
The application is an ISP upgrading from Nx10G, where one of their fiber paths is ~35km and the other is ~60km.
thanks, -Randy
-- Bill Blackford
Logged into reality and abusing my sudo privileges.....
-- Ing. Etienne-Victor Depasquale Assistant Lecturer Department of Communications & Computer Engineering Faculty of Information & Communication Technology University of Malta Web. [ https://www.um.edu.mt/profile/etiennedepasquale | https://www.um.edu.mt/profile/etiennedepasquale ]
-- Daniel Murphy Senior Data Center Engineer (646) 698-8018