FLAC is a meme for 90% of use cases out there. The difference in sound quality between a .flac and 320 .mp3 is imperceptible to the majority of people and needs thousands of dollars of listening equipment to become apparent. The file size is drastically different, though. Not to mention the fact that almost all music is recorded in .wav files nowadays, and the “lossless” versions are usually just synthetically upscaled for the audiophile crowd.
Not to say that I don’t prefer to download FLAC when possible, but I also don’t avoid non-lossless albums either.
In my case I use FLAC because when Plex transcodes, FLAC > Opus sounds better than MP3 > Opus. Almost all my media was ripped by me direct from CD, with some coming from Bandcamp.
FLAC Not to mention the fact that almost all music is recorded in .wav files nowadays, and the “lossless” versions are usually just synthetically upscaled for the audiophile crowd.
Yeah, this isn’t how that works.
“Lossless” refers to a mathematical property of the type of compression. If the data can be decompressed to exactly the same bits that went into the compressor then it’s lossless.
You can’t “synthetically upscale” to lossless. You can make a fake lossless file (lossy data converted into a lossless file format) but that serves zero purpose and is more of an issue with shady pirate uploaders.
Lossless means it sounds exactly like the CD copy, should it exist. That’s really all. And you want lossless for any situation where you’ll be converting again before playback. Like, for example, Bluetooth transmission.
Lossless means it sounds exactly like the CD copy, should it exist
You’re bang on with everything but this, if you’re getting FLACs from the source, you may be getting higher quality than CD which is 16-bit 44.1khz. I’ve got many 24-bit 96khz FLACs in my collection
Your last point about Bluetooth is such a great one though. Recompression of already compressed audio is a much worse end result than compressing uncompressed audio one time (and before anyone says it, basically no one is listening to lossless Bluetooth audio)
Fair point with the higher bit depths and sampling rates, I just figured there was no point in overcomplicating it when it seemed there was already some form of misunderstanding.
FLAC is a meme for 90% of use cases out there. The difference in sound quality between a .flac and 320 .mp3 is imperceptible to the majority of people and needs thousands of dollars of listening equipment to become apparent. The file size is drastically different, though. Not to mention the fact that almost all music is recorded in .wav files nowadays, and the “lossless” versions are usually just synthetically upscaled for the audiophile crowd.
Not to say that I don’t prefer to download FLAC when possible, but I also don’t avoid non-lossless albums either.
In my case I use FLAC because when Plex transcodes, FLAC > Opus sounds better than MP3 > Opus. Almost all my media was ripped by me direct from CD, with some coming from Bandcamp.
See the problem there is that Plex is transcoding instead of just supporting popular audio formats directly.
Yeah, this isn’t how that works.
“Lossless” refers to a mathematical property of the type of compression. If the data can be decompressed to exactly the same bits that went into the compressor then it’s lossless.
You can’t “synthetically upscale” to lossless. You can make a fake lossless file (lossy data converted into a lossless file format) but that serves zero purpose and is more of an issue with shady pirate uploaders.
Lossless means it sounds exactly like the CD copy, should it exist. That’s really all. And you want lossless for any situation where you’ll be converting again before playback. Like, for example, Bluetooth transmission.
You’re bang on with everything but this, if you’re getting FLACs from the source, you may be getting higher quality than CD which is 16-bit 44.1khz. I’ve got many 24-bit 96khz FLACs in my collection
Your last point about Bluetooth is such a great one though. Recompression of already compressed audio is a much worse end result than compressing uncompressed audio one time (and before anyone says it, basically no one is listening to lossless Bluetooth audio)
Fair point with the higher bit depths and sampling rates, I just figured there was no point in overcomplicating it when it seemed there was already some form of misunderstanding.