If you like 1.1.1.1 the. You should try 9.9.9.9. Or better yet host unbound pihole if you’re up to the challenge. Best dns experience I’ve had.
If you like 1.1.1.1 the. You should try 9.9.9.9. Or better yet host unbound pihole if you’re up to the challenge. Best dns experience I’ve had.
The nvidia/vulkan open source driver is apparently pretty rad. I haven’t had a chance to test it myself yet since I am running a dual gpu setup that contains one gpu that isn’t supported. The original maintainer for nouveau is apparently also working at Nvidia and contributing to the project as an Nvidia employee now too soooo maybe they are turning over a new leaf?
He goes into detail in the video below. https://odysee.com/@BrodieRobertson:5/did-nvidia-just-officially-support:2
Tons of good responses here. I’m surprised that nobody has brought up Tailscale though. It’s def the easiest vpn solution I have found. It’s got some great documentation and how to projects to get a home lab running and it’s got its own domain system baked in most of it being zero configuration. You can access mullvad vpn exit nodes straight from it, and set up those domains with ssl super easy e.g.
sudo tailscale serve —https=443 localhost:8096
That single command would allow any other devices connected to your Tailscale account to reach your Jellyfin using the domain “{serverhostname}.[tail-scale].ts.net” complete with a private reverse proxy and ssl cert.
There are a few things to click around in tailscale on but it’s a extremely easy to use free application that has made my self hosted life significantly easier due to my system living behind multiple firewalls that I sadly have no control over.
I can only add 2 things that I know of here that could help.
#1.Try a linear advance tune. That alone should give you sharper corners and more consistent details at higher print speeds.
https://marlinfw.org/docs/features/lin_advance.html
#2.A direct extruder can help with getting very precise sharp corners but from what I understand it will hurt with accuracy on curves. Also there is the whole fact that there is a motor on top of the hot end so weight and whatnot will hurt speed.
Anyway just check out #1. It should help with your issue. If not that then a feed rate tune would solve any over extrusion problems.
Check the screw that is imbedded in the brass gear. It holds it in place to the stepper motor it is attached to. If it is loose at all then it will produce similar results to a clog. Also be sure that the screw is aligned to the cutout on the stepper motor axel. That is what keeps it spinning. If it is tightened but not aligned then it will make that skipping sound.
You make good points here for the beginner however there are better alternatives and solutions for basically everything you mentioned here. The biggest I want to address is conflicts on your system. Generally running servers on metal is just outright bad practice. Containerize. Always containerize. There are lots of great options. Docker, podman, Lxc, helm, flatpak… hell. Snap if you must. Running servers on metal is generally is just asking for trouble unless the system’s entire purpose is for that. Also the cg-nat situation. Personally been behind it for a few years but it’s not a problem as long as you have a reverse proxy tunnel in place. Not a hard fix at all.