Kiss your storage woes behind thanks to a new technique that houses data in 3D.
Note: Unfortunately the research paper linked in the article is a dead/broken/wrong link. Perhaps the author will update it later.
From the limited coverage, it doesn't sound like there's an actual optical drive that utilizes this yet and that it's just theoretical based on the properties of the material the researchers developed.
I'm not holding my breath, but I would absolutely love to be able to back up my storage system to a single optical disc (even if tens of TBs go unused).
If they could make a R/W version of that, holy crap.
It's "only" 125 TB. Still a lot, and impressive. But I just hate the stupid click baity 'petabit' term. We use bytes GB and TB as a standard, just use the standard term it's impressive enough.
IMO the whole byte stuff is pretty confusing, people should have just sticked with bits, because that avoids implementation details.
One bit is the smallest amount of information. Bytes historically had different amounts of bits, depending on the architecture. With ASCII and the success of the 8 bit processor word of the Intel 8080/8085 processor, it is now defacto 8 Bit long.
But personally, byte seems a bit (no pun intended) like the imperial measurement system.
We use bits, megabits, terabits, and petabits fairly standardly in tech.
That's not to be confused with bytes, megabytes, terabytes, and petabytes. Server farms will contain Petabytes (PB) of data.
Technically there's also exabit/byte, zettabit/byte, and yottabit/byte as we continue to climb the chain of technical capabilities. It's estimated that the internet overall has nearly 200 Zettabytes(ZB) of information in 2024.
I will refrain from using the word "standard", but when it comes to data storage the most common terminology is in bytes, as I said TB(terabytes), GB, etc. Saying Pb(petabits) isn't as common and gimmicky imo when referring to a new disk storage technology. 125 TB is impressive enough without having to throw the Peta in there.
I feel like I’ve seen bits used for storage on the scientific level since stuff like the pits and lands on a disc are expressed that way. To anyone in CS, you’d regard storage as a discrete whole part in some way. So bytes are fine. But when you’re developing storage, I believe you’d be concerned about bit density. Would need to read the paper though.
Gigabytes, or gibibyte? Yes gibibyte is a thing.
As much as i hate to say it, but due to marketting fuckery the usage of byte has ruined it all as a 2TB drive is not 2 * 1024 * 1024 * 1024 * 8 bits but instead 2 terabit ( 2*1000000000 )
Then comes the discussion if "1KB" is 1024 bytes or if 1000 bytes is a kilobyte.
If you ask me, 1KB is 1024 bytes. If you ask the people using the kibibytes system, 1KB is 1000 bytes...
Shits fucking complex and fucked up. Cant go wrong if you say it in bits though
Then comes the discussion if “1KB” is 1024 bytes or if 1000 bytes is a kilobyte.
It's the metric system and it's standard now. 1 kilobyte is 1000 bytes, just like 1 kilometer is 1000 meters. It is much easier to convert 20.415.823 bytes into megabytes - 23.4 MB.
Only windows insists on mislabeling the base 1024 kibibyte as kilobyte. The metric unit is much easier to use.
Bits are probably more useful when talking about specialized storage. Byte usually means 8 bits, but doesn't always need to, and not all data is stored in byte chunks.
A bit is the smallest piece of usable datum, so that makes sense when discussing this technology.
I just want this disc in a DVD-RAM format.. It doesn't have to be extremely fast just readable and writable.. I used to love DVD-RAM until 4.25gb became nothing
Research is one thing, getting from concept to production is another. There was a lot of hype about holographic disc formats years ago that was promising capacities from 100 GB to several TBs but they never actually made it to the market.
With the ongoing "death" of physical media playing out in the consumer space, it will also probably be hard for these esoteric disc formats to attract the investment needed to develop them. There might be some enterprise interest if the tech is stable enough for archival use I suppose.
I could see it easily replacing tape libraries as backup devices in data centers. Without the economies of scale like we saw with DVD-RW, I doubt I'd be able to afford one until they hit the secondhand market. It would also be interesting to see something like that integrated into storage appliances which would let you have something approaching an on-prem version of Amazon's Glacier tier.
If they could make a R/W version of that, holy crap.
If those turn up at any sort of reasonable cost, it would simplify my home backups so much. I only have about 14TB currently on my NAS (including workstation backups) but even at that size backups are a problem. The irreplaceable stuff (about 3TB worth) is backed up in the cloud. My ripped DVDs/BRDs would all have to be reripped, other stuff I'd just have to find again or live without. I've been looking at the advancements being made in tape drives, but those are all priced for business.
Possibly. I honestly haven't looked at the ecosystem in a few years. Back then BB's plan structures would have forced me into their business solution and bill over $800/yr - more than 8x my current backup costs.
I honestly can't think of a commercial application for storing that much data to disseminate outside an industrial use. Well I mean in a few years I guess video games will get that big, but other than that...
I think even that goes back around to business interests. We can't store that many physical copies in shrinking, expensive housing. Digital purchasable media is somehow just as expensive despite having tiny manufacturing and logistical costs, on top of being unreliable due to DRM.
Subscriptions so far seemed like a better value proposition but between splitting and vanishing libraries, increasing prices and the addition of ads, that's becoming more questionable. Even average people aren't so thrilled of having to subscribe to a dozen different services to watch, listen and play what they want.
Researchers from Scientists from the University of Shanghai for Science and Technology just figured out how to fit up to a petabit of data onto an optical disk by storing information in 3D.
Well, you can kiss those puny disks goodbye thanks to a new technique that can read and write up to 100 layers of data in the space of just 54-nanometres, as described in a new paper published in the journal Nature.
“This could greatly reduce the footprint as well as the energy consumption of the future big data centers, providing a sustainable solution for the digital economy,” said Min Gu, a professor at the University of Shanghai for Science and Technology, and one of the paper’s co-authors.
The technique required the researchers to develop a brand new material, which has the easy-to-remember name dye-doped photoresist with aggregation-induced emission luminogens, or AIE-DDPR if you’re in a hurry.
AIE-DDPR is a highly uniform and transparent film that lets researchers blast it with lasers at the nanoparticle scale with precision, allowing for an unprecedented storage method.
Shrinking the size and scale of data storage could have huge implications, not just for the business of the internet but also for the environmental footprint of the tech industry.
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