Yeah, sorta. I don't run an IT department. I do run a consulting biz
that in the past has wired various buildings, offices and homes for
ethernet. I've also helped setup server farms for an ISP. Lots of
connectors involved. I've seen failures, but they were never due to
contact failure. It was almost always failure of the insulation
displacement connection on the jack, crimping failure on the plug,
wrong plug type, and shredded cables. Most customers insist on having
the wiring tested with a cable certifier to detect split pairs and
other wiring screwups that don't show up on continuity tests. All my
crimpers are ratcheting type, which is required for a decent
connection. Lots of other precautions, such as pull tests. After
installation, the wiring is again tested using diagnostics built into
the managed switch.
When I inherit a new system, I run the certifier though the wiring and
usually find problems. Usually, it's bad patch cables with miserable
crimps to the plugs. Lately, I'm finding really awful RJ45 plugs that
really can't be properly crimped. I sometimes find stranded wire RJ45
plugs used with stranded CAT5. That won't work (although the reverse
will work).
I rarely see any "failures" that could be directly attributable to the
connector unless the connector was mechanically damaged. If I had to
assign the blame, it would be with whomever built the patch cable or
installed the wall jacks.
Our gateways have optical links, and 100% redundancy.
IF there were EVER a connection problem on ANY port(for the Enet
discussion), it would switch it out, and alert the operators.
Hp series 8 blades for the C7000 chassis series are cool. The old
blades had vertical locking bar and they moved these down onto the end.
It is amazing how much they pack inside these blades. Dual Zeon, SAS,
Optical interfaces, and Ethernet.
After the third party vendor comes in and wires up our racks (way
cheaper than paying our own people to do it, oddly), we are pretty
confident as they tag each line and run diagnostics on each Ethernet
line. Then our in house QAs verify every element of the build on each
rack.
Our RF guys test out the link side cables and get that set up. Then we
take the whole thing apart and crate the racks and ship them to the
gateway site. There, another person re-assembles them and the same wire
crew (we fly them all over the world) re-runs all the wiring to the rack
destinations. Every cable and every link of any kind gets tested here.
At the site everything works again upon re-assembly. That wiring company
makes more money from us than any other customer they ever had, and their
workers get to see the world like an active duty sailor.
We calibrate our crimpers, and so do the cable wire crews. Hell, their
gear is better than some of our gear as it relates to wires. Bad crimps
are the bane of the industry.
However, a properly constructed system will behave the way I stated.
Bad crimps make certain folks draw improper conclusions, but they are,
in fact, the reason most of the failures they observed occurred. It is
hardly ever a connector contact face, or connector mating contact wire
tangency face.
Back in my early days, I worked on upright video games. We had to
charge the customer (video game operator) a minimum of a 1/2 hour for the
service call. Most of them only took a few minutes. So to keep a
customer from becoming irate that you only spent 3 minutes fixing
something, but charged a half hour, you had to sit behind the machine and
act as if you were fixing something.
Back then card edge fingers and connectors were far more prone to
surface oxidation issues (remember re-seating hard drive connectors on
MFM?). All we had to do to fix the game usually is power down (usually
is already) and remove and re-seat all the main board's edge connectors.
Job done, 95% of the time.
I used to have problem charging a customer for a TV repair for this
reason, back when I did that. That was when I learned that they are
paying for your expertise, not your time. Customers, however, still have
problems accepting that reason, to this day.
Like I said, there are trillions of connections each day that operate
just fine, even in extreme environs.
The failure rate is literally more than an order of magnitude less than
it was 20 years ago.
Connector technology has taken big steps forward too. Smaller and
smaller, yet quite integral. Gold is the reason.
Backplanes and such didn't get added to my numbers. There are 1000s of
trillions of connections of high integrity working every day.
How many do you think were utilized in getting your post to the first
server it hit? Tens of thousands likely.
