To their partners*. Which I believe are companies that help out with support or something.
To their partners*. Which I believe are companies that help out with support or something.
Cloudflare tunnels uses a QUIC connection between the cloudflared
on the server and Cloudflare itself, which is encrypted similarly to HTTPS.
Whatever protocol cloudflared
uses to talk to your webserver locally is configurable through the Cloudflare access web UI (just change http to https). I’ve actually got it configured to use unix sockets, which lets me treat it differently in my nginx config.
The HTTPS certs are designed to prevent MITMing, but if it’s still a worry or the domain is blocked by DNS, you can manually find the IP and add it to your hosts file instead.
It’s probably blocked for whatever reason (maybe less than 90 days old?)
My work and Uni do the same thing, they don’t do full SSL inspection, so most websites don’t need a custom certificate authority; but if the SNI is blocked then they need a custom certificate to hijack and display a blocked message, most browsers will detect this as a MITM and display a not secure message instead.
For ergonomics, the plugin should be able to spot cuts in the video so you can easily select the correct frames.
This shouldn’t even be too hard, I doubt YouTube is completely rerendering every video with ads, they’d just insert the ad in before an I frame in the video. So each ad will start with an I frame, and the video will resume on an I frame, meaning just let the user select all the I frames, no fancy cut detection algorithm is needed.
I have no idea how to do this from JS though.
Also I mean video I frames, not HTML iframes.
It also allows users to store dates back to ~1902.
IIRC the RTL chip inside them was originally designed for TV, so it works great! I’m actually using very cheap AliExpress clones for the TV ones, because they otherwise don’t work very well.
I’m also using the outdoor TV antenna on my roof (common in Australia, idk elsewhere), and a splitter and adaptors. And with that I get every channel with no artifacts, at 30% strength, but that’ll probably be higher with not awful SDRs.
I’ve got an interesting setup I’d like to share:
So I’ve got a Raspberry Pi with 4 RTL-SDRs, 2 for TV, 1 for radio, and 1 for plane transponders. That runs SatPi for the 2 TV SDRs, which TVHeadend running on my main server connects to, to record and stream. Jellyfin also connects to TVHeadend to properly index everything and for easy access to recordings and live TV.
Looks like 2x 4 pin fan headers:
But yeah I’ve got an AliExpress X99 board, which threw all sorts of hardware errors, had no fan speed control (100% all the time), no working hwmon sensors, and I ended up buying a used Supermicro board instead.
Will I see any performance increase?
Like others have said LLMs mostly use VRAM, they can use system RAM if you’re running them on CPU, but that’s ridiculously slow.
It will however increase the speed of your compile times, which is especially useful if you’re compiling something large like the Linux kernel on a regular basis.
I’m also worried about not having ECC RAM.
If you are using it purely for LLMs, if it’s going to get bit flips, it’ll happen in VRAM.
If you are compiling large things for customers, I’d recommend ECC, just in case, e.g. you don’t want a bricking firmware from a bit flip. But according to EDAC and my TIG stack, my server’s ECC RAM has never even detected an error in the past year, if I understand EDAC properly, so it’s really not important.
AFAIK fast startup only affects shutdown, clicking restart will always do a full reboot. Shift clicking shutdown will do a full shutdown like you said, but shift clicking restart will start recovery mode.
If the HOA’s router supports UPnP/NAT-PMP/PCP then you might be able to use that to get some ports forwarded.
Is it possible to send the hint from OPNsense itself?
Yes, to me it sounds like you’re already getting a big enough prefix from your ISP (all devices getting a /64), but you’ll have to request a bigger prefix from OPNsense. I believe it should give you the options to do this when you set the IPv6 mode to DHCPv6 on OPNsense, but I can’t say if your ISP router will handle it.
I have also added all Cloudflare IPs in Jellyfin’s known proxies
You should only need to add the IP of the last proxy before reaching Jellyfin, which would be Caddy.
ADCs, DACs, IO extenders
These should all work without kernel drivers. For example, here’s a user space python library for ADS1*15 ADCs, or Nuvoton MS51 IO Expanders. Unless you need very specific timing or require the kernel to know about it, you shouldn’t need a kernel driver.
Idk, with I2C if it’s not something that needs a kernel level driver, there usually isn’t a problem with interacting with it from user space, for example basically all RAM RGB controllers are I2C and OpenRGB has no problem with them. I’m pretty sure I’ve only ever used an I2C device tree overlay for an RTC.
Also I2C/SMBus is present everywhere on x86, like some graphics cards expose it through their HDMI ports, even some server motherboards have a header for it; but for GPIO I’m unaware of any motherboards that expose it, so good luck researching the chipset and tracing out the pins.
If you can’t get the VPS to work, alternatively there’s Cloudflare but last I checked streaming was a little out of their free terms. With it, you should just have to set your AAAA record and make the cloud orange, that way Cloudflare will proxy it, and IPv4 will work. There’s also Cloudflare tunnels which lets you host websites without port forwarding anything.
Debian testing has ‘updated’ to 5.6.1+really5.4.5-1
anyway, so as long as you’ve updated within the past few days it will have been downgraded to 5.4.5.
ZLUDA originally only supported on Intel since it was designed by an Intel employee, but AMD hired him to make it work for AMD instead. So in a way Intel is somewhat important here.
With btrfs you can disable COW for specific files, that might give you a little performance boost.