New memory material may hold data for one billion years

May 20, 2009,
Scientists are reporting an advance toward a memory device capable of storing data for more than one billion years. Credit: The American Chemical Society

( -- Packing more digital images, music, and other data onto silicon chips in USB drives and smart phones is like squeezing more strawberries into the same size supermarket carton. The denser you pack, the quicker it spoils. The 10 to 100 gigabits of data per square inch on today’s memory cards has an estimated life expectancy of only 10 to 30 years. And the electronics industry needs much greater data densities for tomorrow’s iPods, smart phones, and other devices.

Scientists are reporting an advance toward remedying this situation with a new device that can store thousands of times more data than conventional chips with an estimated lifetime of more than one billion years. Their discovery is scheduled for publication in the June 10 issue of ACS’ Nano Letters.

Alex Zettl and colleagues note in the new study that some of today’s highest-density experimental storage media can retain ultra-dense data for only a fraction of a second. They note that William the Conqueror’s Doomsday Book, written on vellum in 1086 AD, has survived 900 years. However, the medium used for a digital version of the book, encoded in 1986, failed within 20 years.

The researchers describe development of an experimental consisting of an iron nanoparticle (1/50,000 the width of a human hair) enclosed in a hollow . In the presence of electricity, the nanoparticle can be shuttled back and forth with great precision. This creates a programmable memory system that, like a silicon chip, can record digital information and play it back using conventional computer hardware. In lab and theoretical studies, the researchers showed that the device had a storage capacity as high as 1 terabyte per square inch (a trillion bits of information) and temperature-stability in excess of one billion years.

More information: Nano Letters, “Nanoscale Reversible Mass Transport for Archival Memory”

Provided by American Chemical Society (news : web)

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4.6 / 5 (5) May 20, 2009
Behold ! A genuine digital abacus !!
3 / 5 (2) May 20, 2009
A billion years, why not make it
a Gazillion Gazillion Gazillion Gazillion years !

Here's something else to think about that has been
verified over and over.

Ferroelectric densities of .2 to .5 Petabits = 200 to 500 Terabits sq. in. / 40 Petabits = 40,000 to 100 Petabits = 100,000 Terabits or 200,000 to 500,000 Gigabits / 40,000,000 to 100,000,000 Gigabits with symmetrical read / write times of < 10 picoseconds for 100 year non-volatile storage having infinite rewrites.

Ferroelectrics space age material that has been shown to have robust Nuclear / EMF / Cosmic radiation protection exceeding all other materials used in data storage and display technology.

5 / 5 (2) May 20, 2009
Really? but I might buy a new laptop in only 50 000 years.
will it be compatible?
5 / 5 (2) May 20, 2009
Maybe the time will come with a fully mature computing technology where an update really is needed only every 50,000 years. But not soon.
3 / 5 (4) May 20, 2009
I want a lifetime warrantee!!!
not rated yet May 20, 2009
I would like photopolymers in the nanotube that bunch up and diffract dithered LED's for computing and solid LED's for memory, optical computers now!
5 / 5 (1) May 20, 2009
If they can make it last 10x as much, it may last long enough to be read by whatever species evolves in the star system that's created from the Sun's ashes.

I want to encode the time-honored phrase of extreme wisdom: 'kiss my shiny metal ass.' :p
not rated yet May 21, 2009
So we know their memory can last long enough to outlast the devices used to interface it. Next challenge is to make it commercial success. If it can't compete, no one will be using it.
not rated yet May 21, 2009
Good start, but nothing today comes even close to the reliability of carving information into stone if you want to store it for 1 billion years. And its easily accessible/readable to anyone or I guess maybe at this point in time, anything alive and aware of it.

Egyptians still has us beat when it comes to data storage. It even survived the dark ages where unfortunately in Europe, tons of books and ancient knowledge was deliberately burned by the church or accidentally burned to be lost forever. My point is stone doesn't burn and its lots of work to destroy carvings on stone.
5 / 5 (1) May 21, 2009
hehe, great but wait. Maybe there are already nanostorage devices left on earth in ancient locations around the world. We are probably rediscovering the tech. :-p

Whats the use of a device that will be used by a species with an amnesia cycle of every 5 to 10 thousand years. Hieroglyphs had to be re-deciphered, and that's talking about stuff people could see without highly specialized laser or electron telescopy.
5 / 5 (2) May 21, 2009
Cool. We could program the highest degree of knowledge into it and put it onto satellites leaving the solar system. If at some distant day and location an intelligence might find them, and have sufficient technology to read the memory that could be the ultimate time capsule. Even if we were gone for millions of years by then, all the cities and colonies crumbled to dust long ago, we could still tell our story. Ah... just dreaming. Would be EPIC though.
5 / 5 (1) May 21, 2009
I wonder if they have given this a "shock" test. To me, the article makes it sound like it is based on the electric field physically moving the iron nanoparticle. This sounds like it might be highly susceptible to physical shock.

Imagine yourself a scientist 10 million year from now. You've just discovered a memory device based on this technology that contains the sum of all knowledge from an ancient era. What you don't know is that the device is susceptible to shock, and you drop the device. DOH! :O
5 / 5 (1) May 22, 2009
When did one billion years of testing pass?
Or their lie is just too cheap.
5 / 5 (4) May 22, 2009
I would not buy this device because next year they will be coming out with *TWO* billion year capabilities. Thus, making this one obsolete.
not rated yet May 26, 2009
what about rust ? degradation of carbon nanotubes may be easy but anything made of iron will react . Y-not rust proof a few bridges now ?

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