I was in another country when there was a power outage at home. My internet went down, the server restart but couldn't reconnect anymore because the optical network router also had some problems after the power outage. I could ask my folks to restart, and turn on off things but nothing more than that. So I couldn't reach my Nextcloud instance and other stuff. Maybe an uninterruptible power supply could have helped but the more I was thinking about it after just didn't really worth the hassle anymore. Add a UPS okay. But why not add a dual WAN failover router for extra security if the internet goes down again? etc. It's a bottomless pit (like most hobbies tbh)
Also (and that's a me problem maybe) I was using Tailscale but I'm more "paranoid" about it nowadays. Single point of failure service, US-only SSO login (MS, Github, Apple, Google), what if my Apple account gets locked if I redeem a gift card and I can't use Tailscale anymore? I still believe in self hosting but probably I want something even more "self" to the extremes.
How bottomless of a pit it becomes depends on a lot of things. It CAN become a bottomless pit if you need perfect uptime.
I host a lot of stuff, but nextcloud to me is photo sync, not business. I can wait til I'm home to turn the server back on. It's not a bottomless pit for me, but I don't really care if it has downtime.
Is it perfect? No, but it's more than enough to cover most brief outages, and also more than enough to allow you to shut down everything you're running gracefully, after you used it for a couple hours.
Major caveat, you'll need a 240V supply, and these guys are 6U, so not exactly tiny. If you're willing to spend a bit more money though, a smaller UPS with external battery packs is the easy plug-and-play option.
> How bottomless of a pit it becomes depends on a lot of things. It CAN become a bottomless pit if you need perfect uptime.
At the end of the day, it's very hard to argue you need perfect uptime in an extended outage (and I say this as someone with a 10kW generator and said 6kVA UPS). I need power to run my sump pumps, but that's about it - if power's been out for 12-18 hours, you better believe I'm shutting down the rack, because it's costing me a crap ton of money to keep running on fossil fuels. And in the two instances of extended power outages I've dealt with, I haven't missed it - believe it or not, there's usually more important things to worry about than your Nextcloud uptime when your power's been out for 48 hours. Like "huh, that ice-covered tree limb is really starting to get close to my roof."
Rewiring the house for 240V supply and spending $400+500 to refurbish a second-hand UPS to keep the 2500W rack running for 15 minutes?
And then there's the electricity costs of running a 2.5kW load, and then cooling costs associated with getting that much heat out of the house constantly. That's like a space heater and a half running constantly.
Again, not trying to normalize 2500W, most people don’t need that (and I don’t really either), but I do make good use of it.
As for “rewiring the house for 240V”, every house* in Canada and the US is delivered “split-phase” 240V (i.e. 240V with a centre tapped neutral, providing 120V between either end of the 240V phase and neutral or 240V from phase to phase), and many appliances are 240V (dryers, water heaters, stove/ranges/ovens, air conditioners). If you have a space free in your breaker panel, adding a 240V 30A circuit should cost less than $1k if you pay an electrician, and can be DIY’d for like $150 max unless you have an ancient panel that requires rare/specialty breakers or the run is very long. It’s far from the most expensive part of a homelab unless you’re running literally just a raspberry pi or something.
*barring an incredibly small exceptional percentage