Stanford's Quantum Hologram Sets Storage Record

eldavojohn writes "It's often assumed that representing data reaches a limit when you get to the point that an atom represents one bit in some form or fashion. But Stanford University researchers have used a quantum hologram model to store the characters 'S' and 'U' by encoding the data at a rate of 35 bits per electron."

versus USB

[KingAlanI]

And I thought my 8GB USB flash drive was high-density! (20mm x 54mm x 8mm)

Re:versus USB

[b4dc0d3r]

Wow, the only thing more dense is Stanford's quantum hologram. A close second, as usual, is the first post, followed by the secretary at work.

Dwell not

[dmomo]

At least your device is also capable of holding the "B"

Re:

[Anonymous Coward]

I heard they were working on "C" and "K"...

Re:

[wjh31]

i would imagine a 2TB 3.5" drive is not 256* the volume of that, and so is bigger, however you might want to have a look at 32GB SDHC card for high density storage

Re:

[ConanG]

Or the 16 GB microSDHC cards. The 32GB ones are just around the corner.

Re:

[clone53421]

15mm x 11mm x 1mm [wikipedia.org]. That's <2% the volume of your flash drive. Owned. :p

STFU...

[Narnie]

Sweet... now they're just a 'T' and 'F' away from writing something useful.

Re:STFU...

[pnevin]

Sweet... now they're just a 'T' and 'F' away from writing something useful.

That's just cynical. Everyone knows that this is just a step towards the ultimate goal - an 16-atom-tall image of Princess Leia.

Re:

[Bysshe]

with C and K you get quantum pr0n...

and then you can get your protons off.

Re:

[CopaceticOpus]

Unfortunately, St. Teresa Franciscan University's quantum research program has fallen well behind Stanford.

Sub nano data recovery???

[schizz69]

I bet recovering data off an atom could prove...... Difficult. :s

Re:

[MichaelSmith]

They should do it with positrons.

Re:Sub nano data recovery???

[Fear the Clam]

They should do it with positrons.

Are you sure?

Re:

[Anonymous Coward]

He's positive

Re:

[Nefarious Wheel]

Willing to swap Melbourne weather for any weather from the USA or Siberia

I'll get the truck. *so* not used to 43c days.

Re:

[fluch]

Especially if the electron rolls away and hides under the rug...
I can imagine the outcry at the SU lab: "Where did this blody hide?!? Did anybody see my electron?"

Re:

[aliquis]

New relativistic bandwidth measurement?

Instead of a truck filled with HDDs/DVDs/whatever we can finally use something more easy to comprehend such as a 2 MW cable (or should one measure the amps instead?)

Re:

[jgtg32a]

But if you try to look for it, it will change

Re:Sub nano data recovery???

[Clever7Devil]

That's why you need redundancy. Do I hear 2 atoms?

Re:Sub nano data recovery???

[CastrTroy]

So, would that leave you with a Redundant Independant Array of Atoms (RIAA)? Perfect for storing my music.

Re:Sub nano data recovery???

[pushing-robot]

But that could get expensive fast. How much does each atom cost?

Re:

[Anonymous Coward]

$.99 per atom.
Molecules are $9.99

ipod nano compatible.

Re:

[noidentity]

So, would that leave you with a Redundant Independant Array of Atoms (RIAA)? Perfect for storing my music.

But that could get expensive fast. How much does each atom cost?

Similar to homeopathy, the RIAA's civil damages seem inversely proportional to the amount, so I'm not sure we can represent the cost of an atom.

A good point, actually...

[tygerstripes]

I remember discussing related "small-scale storage" issues with my brother once. Two concepts were of particular interest:

1. Spin and such: If we want to store on a very small scale, why not use the intrinsic properties of molecules, atoms and particles? A simple example would be using a caffeine molecule, which can exist in 8 different molecular arrangements (I forget the exact details - was it aggregate Spin?), as 3-bit memory. I'm sure there are more suitable molecules, or applications on smaller scales

You mean it's just a hoax?

[iwein]

If they can't recover the data, how did they prove it was ever there? I didn't read the article in good /. fashion, but if it avoids this question I'm sure it's not to be taken seriously.

That's great!

[Anonymous Coward]

And by letting S=0 and U=1 we can now represent a bit using 70 bits! Oh wai-

Re:

[Anonymous Coward]

And by letting S=0 and U=1 we can now represent a bit using 70 bits! Oh wai-

You'll be hearing from Microsoft's patent lawyers.

Space versus time tradeoff

[Carnildo]

They're storing data in a small space, sure, but it's got the same problem that traditional holograms do: it takes a good deal of computation time to figure out how to encode the information you want in wave patterns.

Re:

[sremick]

Agreed. The first thing that jumped to my mind after reading this article was that it would not scale well past a few characters.

Neat trick, though.

Re:Space versus time tradeoff

[Solder Fumes]

Maybe quantum computers will be really good at doing this.

Re:

[poot_rootbeer]

Maybe quantum computers will be really good at doing this.

Maybe, but there'll be no way to know if they are or not...

Re:

[Pollardito]

quantum computers are a pipe dream, as they require exponential power in the number of qbits.

Maybe quantum power supplies will be really good at doing this (see, there's an answer like this for anything)

Neat

[ShooterNeo]

One thing most 'futurists' agree on is that the ultimate 'end game' of technology appears to be the conversion of all matter in the solar system into machine parts and computational elements. It's a logical end result of exponential growth. (and, actually, would be only the beginning : such a 'civilization' would eventually grow to convert the entire universe, but this would take much longer due to the snails pace of light)

It's neat to think that such a civilization could store even more information than an obvious cap of '1 bit per atom'.

Re:Neat

[nine-times]

One thing most 'futurists' agree on is that the ultimate 'end game' of technology appears to be the conversion of all matter in the solar system into machine parts and computational elements. It's a logical end result of exponential growth. (and, actually, would be only the beginning : such a 'civilization' would eventually grow to convert the entire universe, but this would take much longer due to the snails pace of light)

What makes you think this hasn't already happened? Maybe we're part of a big computer thats trying to answer some kind of big question or something.

Actually, never mind. That seems infinitely improbable to me.

Re:

[MichaelSmith]

I was going to do that ;) now where did my mice get to?

Comment removed

[account_deleted]

Comment removed based on user account deletion

Re:

[Anonymous Coward]

Probably, it explains why i am permanently aroused by every single thing around me, even that comma.

Re:

[kitsunewarlock]

Well, the comma is un-questionably the sluttiest punctuation mark in the english language; personally I prefer the exoticism of the semi-colon, but people exclaim that I'm some kind of fetishist!

Comment removed

[account_deleted]

Comment removed based on user account deletion

Re:Neat

[antibryce]

when I was 10-11 my dad caught me looking at porn on our C64. The next day my mom made him pack the computer up for several years until we got a new PC.

Let's hope God doesn't have a mom.

Re:

[clone53421]

The "eternal virgin" concept is a myth.

Re:

[TractorBarry]

Or maybe we're just the equivalent of mould organisms whose outbreak is slowly starting to rot something elses wonderful cultural archive :)

Re:

[crhylove]

Well there's too many dudes in this version.

Re:

[im_thatoneguy]

To ruin a perfectly good Hitchhiker's guide:

Actually it's not infinitely improbable. It's actually extremely probable.

Now obviously there is life in our universe whatever it may be. (I think therefore I am. Etc...) If life is capable of evolving into sentient, intelligent, technological life then eventually it's almost guaranteed that they'll simulate another universe. As long as each universe simulates at least ONE other universe then the probability of being in a simulation is > 50%.

The chances tha

Re:

[SpaceLifeForm]

Yes, most of them are buggy.

Re:Neat

[ShooterNeo]

The problem with this theory : it assumes that each universe has the capacity in terms of available matter that could build a computer capable of simulating an entire universe THE SAME SIZE as the one above it. Not possible.

Re:

[KeX3]

Just because the simulation doesn't throw up "LOADING" when you go past jupiter doesn't mean the entire known universe is one big zone. If building a simulated world, it would make no sense at all to simulate the entire universe. Simulate the close proximity, use a skybox for the rest.

Re:

[ShooterNeo]

At least there could be an afterlife...if we are even alive in the first place...

Re:Neat

[foniksonik]

That's why there is that nasty speed of light constraint in this universe... you can't see past the light horizon... well you can but not in the present time, you only get to see pre-computed archived data.

Re:

[gnud]

You're right. The one above us is waaay bigger than ours. And our universe is constantly expanding at the same rate as their data center.

Re:

[kabocox]

The problem with this theory : it assumes that each universe has the capacity in terms of available matter that could build a computer capable of simulating an entire universe THE SAME SIZE as the one above it. Not possible.

Um as far as we know or have been taught. Imagine if you had the tech base that you didn't need matter to run your universe. Now imagine if you played with time and space like they were nothing. Imagine if you could a box that's bigger on the inside than on the side. Think if you could c

Re:

[ShooterNeo]

Well, there's a glitch : the "top level" universe would have finite amounts of matter and energy to build simulation computers with. And each layer of simulation puts more load on the 'top level' universe computers.

Unless, of course, the 'top level' universe has infinite resources because it doesn't have limitations such as entropy and finite size, like our universe does.

Some of the quirks of quantum physics IMPLY that we ARE in a simulated universe, and certain things aren't being calculated in order to l

Re:

[OolimPhon]

Bah! It's universes all the way up!

Re:

[FiloEleven]

Not only is it a simulated universe, but it's running on a virtual machine! I saw some garbage collection take place just this morning!

Re:

[againjj]

I don't know, Timmy, being God is a big responsibility [everything2.com]

Re:

[kabocox]

One thing most 'futurists' agree on is that the ultimate 'end game' of technology appears to be the conversion of all matter in the solar system into machine parts and computational elements. It's a logical end result of exponential growth. (and, actually, would be only the beginning : such a 'civilization' would eventually grow to convert the entire universe, but this would take much longer due to the snails pace of light)

What makes you think this hasn't already happened? Maybe we're part of a big computer

Re:

[iNaya]

And if the entire universe was made into one giant computer, would that make any difference to what it actually is now?

Re:

[neomunk]

Well... If our simulation is being monitored (even by an autonomous script) whatever watchdog might take our recent (in terms of the simulation) attempts at quantum mechanical thought and experiments along those lines as 'hacking' the system. Maybe that's what we're SUPPOSED to end up doing, or maybe that's a termination condition (segmentation fault: core dumped)...

Not that I necessarily buy the notion we're living in a simulation (though I think the idea is interesting), I do think there would be real i

Re:

[neomunk]

Errr, sorry iNaya. The way this is threaded, I mistook your post as saying something different. My bad!

Simulation implies god

[TapeCutter]

The Universe acts as a computer, even though I can't predict what will happen in the next ten seconds I believe my (zero dimentional?) "soul" is a particular instance of a calculation within the Universal calculator.

The word "simulation" implies the calculator and it's calculations have a "higher" purpose, ie: an external intelligence pre-programmed it and/or is still pushing the buttons. Note that by definition the Universe has no "outside".

We will never know if there is a button pushing God, there i

Re:

[neomunk]

While I generally agree, I'd say that that depends on how well 'sandboxed' the simulation is for (possible) other running simulations, or even the 'bare metal' that existence (consciousness, soul, probability, whatever) runs on. I chose the good ole' segfault in my post for a reason, what if we figure out some way to "peek" at a spatial location that isn't mapped to our space-time? It would suggest that there is another separate space-time congruent to ours, and that there may be ways to interact with it.

Re:Neat

[JWman]

It's a logical end result of exponential growth.

Actually, that logic is flawed. The assumption that we will continue to see exponential growth forever in anything is pretty flawed, simply because of different laws kicking in. Look at trends in computer ownership, or TVs or anything else that hits its prime and hits it big. For a good while these things do have an exponential growth curve, but obviously that growth cannot continue indefinitely, or people would have to start buying two or three TV sets at a time every couple of days, and then the next week buy 3 TV sets every day, and then every hour....

This is the fundamental problem with extrapolation taken too far. The truth of the matter is that you have no idea what the curve looks like, regardless of how much data you have. It could be exponential growth for thousands of years, and then suddenly take a nose dive and drop back down close to where it started, or perhaps grow faster. Extrapolating too far is foolishness that happens far too often.
I've heard the discussion of converting all matter into computational elements, but a FAR more likely growth curve for computing power is not exponential, but sigmoidal [wikipedia.org].

Thus, I would argue that converting all matter into computational elements would be the asymptotic 'end game' of technology that we will never quite reach, but always be moving towards (though our progress will slow). Many growth patterns follow a sigmoidal curve.

Re:Neat

[ShooterNeo]

Ok, my logic isn't based on math, it's based on common sense.

Go look at a a modern factory using current robotics. Do you notice that the factory could make some of the parts used in the machines in that factory? And that the robots can do basically anything that a human hand can do, given a proper setup?

It's perfectly reasonable to extrapolate just a LITTLE bit and imagine a very large factory that can make every part used in the factory itself, from the ICs in the control circuitry to lubricants for the moving parts. Said factory already exists, it is just distributed across the world and currently depends on human labor for many things.

Now, what ultimate needs does this factory have, if you could replace the human intelligence of the workers with really smart software? Well, it needs various metals and carbon and silicon and all sorts of other stuff that happen to be found all over our solar system, not just on earth.

It also would need energy, which happens to be freely created and dumped into space by our star.

So common sense is that once such a factory exists and no longer is constrained by human labor for it to grow, it could exponentially grow to swallow up all the available matter in the solar system, almost.

Yes, the curve would be sigmoidal...somewhere around the point that it comes time to assimilate pluto or Kuiper belt objects, the rate of growth would level off. And we'd never convert EVERY last scrap of matter, it would be an asymptotic end game at that point, yes.

But what's the difference between converting 90% of everything within a a light day of the Sun and 100% from a practical perspective? Either way, it is going to be pretty darn impressive for those humans that live to see it. (if any do)

Re:

[ShooterNeo]

The nice part about the scenario is that it lets you visualize what exponential growth/the singularity can do, without depending on technology that may or may not be developed.

We already have examples for everything in the scenario. Even the limit on human thinking power : if we had to, we could just control these self replicating factories with human neurons on an artifical substrate. That is, if we never made AI work using only semiconductor ICs.

And it might be chunky, but that doesn't me

Re:

[TheLazySci-FiAuthor]

Thank goodness for you math geeks.

I'm a big singularity hopeful - however I must admit, begrudgingly, that there seems to be quite a bit of confirmation bias amongst the singularity luminaries.

I had seen this function, but couldn't recall the name.

A beautiful (and strongly supported) counter-example to run-away, or perpetual, exponential growth.

After all, in my mind at least it makes sense to draw at least some analogy between speciation & population growth and technologic progress & adoption.

I just

Re:

[Nick Ives]

Don't speak so freely of the spiral nemesis lest we incur the wrath of the anti-spirals!

Re:

[clone53421]

Please refer to the second law of thermodynamics [wikipedia.org].

Re:

[ShooterNeo]

Please look into the sky. Notice the fireball of energy being thrown into space every second? Yeah, I thought not. I suspect the limit is not energy, but matter : we can grab every scrap of matter in the solar system, and still not have enough to surround the sun completely with solar cells.

Re:

[clone53421]

Great post, what's your point? The sun obeys the 2nd law of thermodynamics.

Re:

[ShooterNeo]

You seem to think that this flood of energy is insufficient to overcome entropy and convert all available matter within a light day into machine parts that use this energy.

Re:

[clone53421]

"Overcome entropy"? It most absolutely cannot: the sun is not an infinite source of energy. Suppose for simplicity's sake that 100% of the sun's output is captured by the earth, thus making "sun + earth" a closed system. Now, the sun has more useful energy than the earth; because of the energy differential, the sun will transfer energy to the earth until the two are equal. This transferal of energy performs "work". Once the energy levels of the earth and sun are equivalent, no more energy will be transferre

Re:

[ShooterNeo]

Look, whoever you are. I know what the second law is, and I've taken about 6 physics courses. Of course entropy wins in the end, but the sun has billions of years (4 or 5 at least) worth of fuel left.

What I MEANT was that we'll build machines that will replicate themselves and use a chunk of solar output to run, using all the matter we have. Yeah, net results, the decrease in entropy in the machines will be more than compensated by an increase in entropy in the sun, and in the radiation coming from the s

Re:

[clone53421]

Ok, I'm agreeing with most of what you posted, right up until here:

And actually, even entropy MIGHT be beatable. Somehow, the world we live in was created, and whatever made the big bang obviously REDUCED entropy. Maybe technology could one day create new universes, starting from a state of maximal order.

You're trying to use a theoretical event to support the contradiction of an observable law. Science shouldn't work that way.

Anyway, I'm going to return to your original post, because in re-reading it I'm beginning to think I objected primarily because of the absurdity of the scope:

One thing most 'futurists' agree on is that the ultimate 'end game' of technology appears to be the conversion of all matter in the solar system into machine parts and computational elements.

For starters, "all matter in the solar system" includes the sun, which we've already pretty conclusively decided was the power source, which I wouldn't consider eq

Re:

[ShooterNeo]

Ok, I meant all "non burning plasma" matter. Scooping gas from the sun will probably never be efficient.

As for theoretical event : while the big bang is a theory, it defies logic to say that entropy cannot even be decreased. For there to be increasing disorder, there has to be order, originally.

And one theory for the big bang points out that the universe, as we see it, seems kind of arbitrary. A simple explanation for why it exists is that the big bang process didn't just happen once, but happens many, m

They did... how much??

[w0mprat]

35 bits per electron?! This kind of resets a few common assumptions about how much data can be stored in matter. Feynman was right.

http://en.wikipedia.org/wiki/There's_Plenty_of_Room_at_the_Bottom [wikipedia.org]

Re:They did... how much??

[Ungrounded Lightning]

If I understand holography and what they're doing correctly (and I DID work as a tech in Emmett Leith's lab so I have some clue), they're transforming the information.

Yes, each electron has information from 35 bits. But more than one electron has that same information, encoded differently. How many storage electrons do they need to encode it in a way that is recoverable?

The information per electron is the total information encoded divided by the total number of electrons needed to encode it at a high enough resolution to be recovered.

Also: The illustration of the way they're encoding it looks like it's not just electrons that encode it, but also their absence. Add in HOLES to the count of "things encoding the bits".

I'll be surprised if the total comes out to more than one bit per electron site. (Note that they may get more than one such site per atom.)

Re:

[Anonymous Coward]

It sounds like cheating to me as well. They don't seem to be counting the MOLECULES necessary for creating the interference patterns. How many support atoms does it take to encode each bit of information? If it takes more than a couple for each bit, then how is this better than IBM's effort?

From the article:

On the two-dimensional surface of the copper, electrons zip around, behaving as both particles and waves, bouncing off the carbon monoxide molecules the way ripples in a shallow pond might interact with

Typo?

[Ungrounded Lightning]

there's a typo in your sig.

Really? The "spell" command agrees with all the words except "Weimar" and that's the correct spelling. (It's a German city name, so it hasn't been sufficiently incorporated into American English to count as a word for spell checkers.)

Re:

[clone53421]

They didn't store two letters, they stored a bitmap of two letters. (Well, a hologram, but it's a similar comparison.)

How much data?

[LingNoi]

The article didn't go into any detail about this.

Anyone know how many libraries of congress this is?

Re:

[textstring]

35 bits is about 4x10^-13 LoC's, taking 1 LoC = 10TB.
so, you could fit the entire library of congress in about 9x10^-12 grams of copper.

Re:

[clone53421]

True only for very large values of nothing.

Re:

[clone53421]

Two letters in ASCII are 14 bits.

They didn't store ASCII, they stored a hologram. Reading ASCII requires conversion into a human-readable form; a hologram is already human-readable (albeit this one requires a massive amount of magnification).

Converting ASCII into human-readable form requires quite a bit of data. If you don't believe me, check the file size on times.ttf.

Shrink a STM to fit into a 2.5" or 3.5" HDD

[t35t0r]

Now all we need to do is shrink a STM so that it fits into a SATA HDD 2.5 or 3.5" form factor :)

Yeah but...

[geminidomino]

Read the fine print

"35 bits per electron.*"

1 kilobit=1000 bits
1 bit=1000 bquarks

Goddamn marketers! It's 1024!

Screw bytes per dollar

[kkrajewski]

I want the most bytes per MOLE next time I shop for a hard disk!

Re:

[tool462]

6.02e23 ought to be enough for anybody.

Ok for the login, but...

[ThePromenader]

They're going to need a few more bits for the root password.

Encoded!

[Nefarious Wheel]

With density like that we could encode ourselves, our philosophies and all else in our experience in a thimble or two.

Was it Greg Bear who explored this in "Blood Music"?

Re:

[ErikTheRed]

With density like that we could encode ourselves, our philosophies and all else in our experience in a thimble or two.

Sadly, most people's philosophies and whatnot could be encoded and fit into a thimble using 1800's technology.

Rumor I Heard

[qzak]

I hear this is replacing Blu-Ray as the basis for the storage disk for the PS4, which now has an estimated MSRP of $4260285021.99.

Re:

[MobileTatsu-NJG]

I hear this is replacing Blu-Ray as the basis for the storage disk for the PS4, which now has an estimated MSRP of $4260285021.99.

Yeah I read that, too. The author of the article said we should buy the PS4 instead of Nintendo's next console (called the Ur-In) because it cost them $4,260,286,021.00 to make. He rationalized that since Sony's bleeding $1,000 per console (not including the cost of their unsold inventory...) so we should pony up because they're giving to us whereas Nintendo's making an evil profit.

In other news, Sony's announced layoffs...

Atoms without information

[gyrogeerloose]

From TFA:

At the other end of the transporter, you need to have some blob of atoms that represents Captain Kirk but has no infomation in it. What would that look like?

A lot like William Shatner currently does, I would imagine.

Re:Wowie!

[Selfbain]

My god! You're so right! We should like totally stop doing research because it's so hard and takes effort.

Re:Carbon-13 storage

[Yeti.SSM]

Radioactive storage anyone?

Then all your pr0n collection would decay after some time. Not a viable solution.

Re:

[corychristison]

I can store an entire 4 hour porno in/on a single atom

At what resolution and bitrate?

I could probably transcode a porno into a black-and-white 32x32 pixel video to create a very small file.

On the flipside I could upscale it to a full 1080p 120hz video to create a very large file.

Specifics, people! This /is/ Slashdot!

Re:

[bob_jordan]

##0#0#0
#00#0#0
##0#0#0
0#0#0#0
##0###0 ?

Bob.

Re:

[D. Taylor]

Say 500,000,000 atoms on your fingernail

You're only off by a factor of 10^15 or so...

Re:

[Anonymous Coward]

But how long will the electrons stay in these different levels?