I’m currently in the process of re-downloading everything on x265 because of the smaller files sizes. Whats do you guys think? Also has anybody experience with Tdarr?
I really love AV1, it’s very small in file size and it’s completely free, meaning that it should play anywhere were it was implemented
Wish AV1 was more widely used, better licensing than x265 while same compression afaik
It’s open, so no licensing.
Also, compression-wise, it’s either equal or better from what I’ve seen
Are there scene releases that are encoded in AV1?
There are a moderate amount of tightly connected releasers who encode and release AV1. Just add av1 to any search on 1337x and you can find them.
I prefer x264 since all my devices can play it, though x265 is great for file sizes.
This. I actually went the opposite route to OP, replaced everything 265 to 264 to avoid playback issues. My content is played on many different devices so 265 simply won’t cut it.
For me the math worked out that it was cheaper to get a nuc with quick sync than to pay for the extra storage h264 uses, it’s less than half the bitrate (usually ~2Mbit for 1080 compared to 8+), I have 23TB of content and my Intel nuc power efficiently transcodes to h264 on demand if the device needs it.
HEVC 10 bit in order to reduce banding for animation, especially during dark scenes. I know H264 Hi10 exists, but it has poor hardware support, so using HEVC 10 bit is the best option (I don’t own a single streaming device that supports HW accelerated Hi10, besides my PC). Also, an added benefit is reduced file size. I find that doing my own encodes is very rarely worth it, but when I do, I use FFmpeg in the CLI and not tdarr.
Banding?
Banding is that annoying color gradient you see sometimes in dark scenes.
On the left is 8 bit and on the right is 10 bit.
Hold up. That entire image is 8-bit. It’s a JPEG image. JPEG can’t encode more than 8 bits per channel. Nor can most displays, including mine, display more than 8 bits per channel. And yet the left half of your image exhibits far worse banding than the right half.
The left half looks more like 5 bits per channel rather than 8. You’d see that kind of banding in gradients back in the days of Windows 3.1, when 16-bit color was common. (16-bit color uses 5 bits each for red and blue, and 6 bits for green.)
It’s an exaggerated example to demonstrate the concept of banding more clearly, not a technical breakdown.
Then it should be marked as such. It’s highly misleading to anyone who doesn’t know better. Again, you’re demonstrating the difference between 5-bit and 8-bit color, not the difference between 8-bit and 10-bit color.
FLAC, because you didn’t specify what kind of Codec.
My bad, I was asking about video codecs.
But I agree FLAC for audio. Although I convert to ALAC when using apple products which is basically the same.I’m just being cheeky
For codecs it is highly dependent on the release group. For 4K it is the only valid option, but for 1080p a lot of groups make their x265 encodes too small and sacrifice quality. Take a look at the group rankings in the trash guides for sonarr and radarr for a general idea if who is the best/worst.
As for Tdarr, you should only really use it for audio and subtitle processing. For one you should not re-encode video so unless you’re starting with remuxes you’re further degrading video that is already degraded. And for two it’s best left to the people who know what settings to tweak for each movie or episode. There is no universal setting that works well for everything so while you might be able to get acceptable quality with automation it’s never going to be great. The best groups already took the time and effort to get it right so you might as well get those and save yourself the time/electricity.