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IBM nanotechnology creates 1-terabit memory
EE Times ^ | R. Colin Johnson

Posted on 06/17/2002 5:23:09 PM PDT by Ernest_at_the_Beach

ZURICH, Switzerland — IBM Corp. has developed a prototype terabit memory that stores a trillion bits of data, or twenty times more than a current disk drive, in a square inch. Created with micromachining techniques, IBM said the Millipede non-volatile memory is only the beginning of even denser memories.

The Millipede chip uses silicon micromachining techniques to precisely move a silicon substrate coated with a thin-film polymer beneath an array of 1,024 parallel activated 20-nanometer read/write heads, which were also etched from silicon.

http://www.mentor.com/dsm/

While other memory technologies are reaching the end of their usefulness, IBM Nobel laureate Gerd Beinnig of the Millipede project said nanotechnology is in its infancy, and is good for another "thousandfold increase in data-storage density," which would lead to petabit-sized devices.

"We believe that the Millipede device is a good match for mobile devices like cell phones," said Peter Vettiger, Millipede project leader with IBM Research. "Someday our prototypes may lead to replacement chips you can plug into the same sockets as current flash memory chips, but with incredible storage capacity and only about 100 milliwatts power consumption."

Stressing that the Millipede is a prototype, Vettiger said it will be two years before he can refine the chip to a point where it could even be considered for manufacturing. IBM stated its commitment to nanotechnology in 2000, and said memory was the main strategic goal of its research.

The current Millipede chip uses microelectromechanical systems to physically locate and melt holes in a soft polymer atop a movable silicon substrate. Bit locations are addressed by moving the substrate under the desired read/write head, which is then heated. Static tension causes the head to melt the polymer, making a hole, which can be read later by the same head when it is not heated. Since the polymer is not destroyed, but only displaced, erasure is accomplished by using the head to melt the displaced polymer until it flows back into the hole.

"Erasure can be done on a per bit basis, but since it takes more energy, mobile users will have the option of just marking files for erasure, and delaying the actual erasing operation until, say, the handset is put into its charger at night," said Vettiger.

The terabit densities displayed by IBM's Millipede chip, currently using 1,024 tips or heads in a 3-mm square area, will be increased to 4,096 tips in a 7-mm square area by early next year, according to Vettiger. Capacities could eventually reach 15 gigabytes per chip, more than a tenfold increase over current predictions for flash memory capacities, Vettiger said.


TOPICS: Business/Economy; Extended News; Technical
KEYWORDS: nanotechnology; techindex; test
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To: all
Had the name wrong --- should have been :
Melvin Wirbelsturm of Podunk
21 posted on 06/17/2002 9:22:05 PM PDT by Ernest_at_the_Beach
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To: Wright is right!
Note to Bill: See above for real "innovation."
22 posted on 06/17/2002 9:24:01 PM PDT by D-fendr
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To: Ernest_at_the_Beach
This could be VERY big business in the datacenter.

Todays servers are often limited in speed once they have to retrieve data from disk. However, if you load ALL data and programs into memory........things get very very fast......well, assuming you use an OS that can handle that much memory.

It probably wouldn't help an XP or W2K server much:)

23 posted on 06/17/2002 9:52:21 PM PDT by Mariner
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To: Ernest_at_the_Beach

closeup diagram of a "millipede" chip


24 posted on 06/17/2002 9:56:09 PM PDT by petuniasevan
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To: petuniasevan
Thanks!

Any idea if there is a mechanical movement with this?

25 posted on 06/17/2002 10:01:09 PM PDT by Ernest_at_the_Beach
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To: July 4th
Dear G-d, that's absolutely psychotic.

Yup. But I admit it would probably make a good movie.

26 posted on 06/17/2002 10:01:23 PM PDT by Prodigal Son
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To: Ernest_at_the_Beach
No slowdown in the advance of computing technology!

Agreed...but when it deliver the brave new world in which school kids don't
have to wear a backpack and haul 30 pounds of books around campus?
(Well, maybe that's not such a bad thing...it's the most exercise some students get...)
27 posted on 06/17/2002 10:03:52 PM PDT by VOA
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To: petuniasevan
Lets add this:

IBM ace has nanotech memory in mind
By R. Colin Johnson, EE Times
Sep 13, 2000 (3:00 PM)
URL: http://www.eetimes.com/story/OEG20000913S0061

When Thomas Theis goes to work these days in a New York City suburb, he keeps at least one eye focused an ocean away on a key strategic goal: creating the world's first nanotechnology memory device. As director of physical sciences at IBM's T.J. Watson Research Center in Yorktown Heights, N.Y., Theis oversees the work of Forschungslaboratorium Zurich, Big Blue's research center in Switzerland.

In the international community of microelectromechanical systems (MEMS) builders, the Zurich lab shines as a nanotechnological beacon of competency. Its scanning tunneling microscope won the Nobel prize and has become the standard submicron "tweezers" used worldwide to sculpt nanotechnologies atom by atom. Now IBM plans to extend that nanotechnology expertise to superdense memories and end-user applications like specialized drugs delivered directly to specific cells.

"There are broad application areas for nanotechnology, and we have been there from the beginning," said Theis.

IBM's main strategic goal — the nanotechnology memory device — was spearheaded by Zurich's Millipede project. Millipede harnesses MEMS technology to mark submicron ones and zeroes into a soft polymer with a comblike cantilever that resembles its namesake — the multilegged millipede insect.

"Starting with the Nobel prize-winning work at our Zurich facility on atomic-force microscopes, our nanotechnology research has led to microelectromechanical systems including our Millipede project. With our millipede-like cantilever technology, we hope to achieve information densities that will be measured in the hundreds of gigabits per square inch."

Besides making denser memories, IBM experiments have used the MEMS cantilever to detect specific molecules. The MEMS "comb" had each tooth pretreated to deflect in the presence of a single type of molecule. That enabled it to detect molecules with only a single missing bond on a long protein chain, an impossible feat in real-time at any price with conventional equipment today. IBM experimenters used a laser measuring system to read out which comb teeth were being deflected, and thus which molecules were present in a test sample.

The Zurich researchers already had expertise in quality control and measurement, such as detecting harmful vapor in process control systems. The MEMS cantilever, however, works for liquids where it is submerged, making its molecular recognition capabilities applicable in areas like DNA testing.

The Zurich research center cites possible drug-delivery applications for their basic research, too. Drug companies could tailor cantilevers to puncture tiny medicine capsules in the bloodstream, but only when they are located within a cancer tumor. That would eliminate the side effects of cancer drugs which, taken orally, saturate all the tissues.

Using standard silicon fabrication techniques, the researchers created a tiny cantilever with teeth 500 microns long and 100 microns wide, but less than a micron thick. One side of the cantilever was then coated with gold, to which about 10 billion DNA half-helixes were bonded.

"These cantilevers are purely mechanical devices, etched out of pure crystalline silicon using standard chip-fabrication equipment," said Theis. "Then, one side is coated with gold and the DNA half-helix was attached to the ends of the comb's teeth."

When submerged in solution, the DNA half-helixes bonded only with a single type of molecule — their other half. When they do, the additional stress caused by the tightly packed vertically oriented half-helixes makes them bend the cantilever's tooth, which can be detected with a laser.

DNA molecules are composed of thousands of base-4 bits called "base pairs" in long strings. Identification of a molecule occurs when its exact base-pair bits match with those of a string present in the test sample. The match must be perfect, right down to a single missing "bit" to have an exact match — something nearly impossible to verify with 100 percent accuracy using current methods. But IBM's prototype cantilever did perform 100 percent accurate identification.

"We were able to show that not only can you use this technology to see individual DNA molecules in real-time, but also that its identification accuracy can be within a missing single base pair," said Theis.

IBM's technology demonstration depended on a phenomenon often used for molecular recognition called hybridization, where half the double helix of a DNA molecule is ripped out. Since the double helix can only re-form in the presence of exactly the right other half, the single helix can serve as a highly accurate molecular-recognition mechanism.

Various mammal antibodies tested

No matter which type of biomolecule is coated to one side of the cantilever, it is so thin that even small amounts of the detected substance are present. The cantilever's receptors become so stressed with the extra molecules that the cantilever bends about 10 to 20 nanometers, which can be measured with laser beam deflection. Both single-stranded DNA and proteins known to recognize antibodies of various mammals have been tested by IBM so far.

"It's very easy to see expanding the experiment by taking a thousand different fragments of DNA and testing whether any one of those fragments is present," said Theis. "Certainly there are so-called gene chips that can do this, but ours is a real-time readout of the composition of a sample."

To directly transduce from a sample to a physically detectable motion gives IBM's MEMS technology a distinct advantage over gene chips that depend on batch-operations. Vapor-sniffing versions of IBM's cantilever technology, in theory, could read out the chemical composition of a sample by merely pointing the device in the sample's direction, like the Tri-Corder on Star Trek.

"Real-time detection of such a highly specific biomolecular reaction has never been done before. I believe that our Zurich lab was the world's first," said Theis.

Other methods, including gene chips, label the molecules under test with a radioactive isotope, then expose them to the sample. On a gene chip, thousands of pits on the chip contain the DNA half-strands. Then the chip is submerged in the test sample, but an extra step of chemistry has to be done after exposure to the sample — to detect the radioactive isotope markers.

IBM's cantilever, however, can be directly observed with a laser to deflect within milliseconds of the time it is exposed to the sample. Since an unlimited number of different types of molecules can be bonded to the cantilever's teeth, an unlimited number of real-time recognizers can be designed.

"I must caution that we have, so far, only demonstrated the principle of transducing the [constituents of matter] in real-time, but the principle so demonstrated is very general. Any molecule has some specificity for other molecules and in fact two members of this team are working on an artificial nose that uses a set of molecules which range over the various kinds of scents — permitting them to recognize one kind of wine over another," said Theis.

Molecular recognition, however, is not a strategic direction for IBM. "We are in the storage business, not molecular recognition, so we will license out any medical applications we uncover. Our major emphasis has got to be on the Millipede project — to commercialize gigabit-per-square-inch memory technologies," said Theis.

Millipede historyAt the Millipede project, tiny indentations are poked into a polymer layer by the submicron cantilever tips — representing stored bits. Since all tips on a cantilever can be read out at the same time, remarkably high data rates can be achieved. Storage densities could theoretically approach hundreds of billion of bits per square inch — more than five times the theoretical highest density for magnetic storage media.

Using the scanning tunneling microscope like a pair of molecular-sized tweezers has enabled IBM's Zurich lab to demonstrate the feasibility of making modifications on a nanometer scale, including the precise positioning of individual atoms on molecules. In comparison to electrical energy consumed on chips, the movement of nanoscale mechanical components consumes tiny amounts of energy and operates faster, plus wear is less of a problem than with macroscopic mechanical systems.

In cooperation with the IBM Almaden Research group (San Jose, Calif.), IBM has demonstrated a spinning disk on a turntable similar to a spinning magnetic disk. The cantilever was positioned so that its free end could mark and detect 100-nm-sized 0s and 1s resulting in 10-Gbit/cm2 densities — 10 times the density of a DVD disk.

With a single-bit cantilever, the nanotechnology disk streamed 10 Mbits/second, but by using a cantilever with thousands of teeth, future disks could stream at tens of gigabits per second. IBM has already demonstrated the feasibility of multibit disks, with a 25-tooth cantilever, arranged as a 5-by-5 array measuring just 25 mm squared. A 1,024-tooth array, already in fabrication at IBM, features a 32-by-32 form factor squeezed into 3 mm squared. The highest measured density so far — 30 nm marks — puts the 1,024-tooth cantilever at 80 Gbits/cm-squared density.

No battery required

Another advantage to IBM's cantilever approach may be its utter non-dependence on power sources. For instance, to deflect a cantilever's tooth in the molecular-recognition application, no external power need be applied.

"No external power source of any kind is needed to get this transduction of the signal. Nanoscale mechanics doesn't require any kind of external battery or power supply in order to achieve a mechanical motion," said Theis.

In fact, the deflection of the cantilever is measured by a laser beam, which, of course, must be powered externally. However, once you can bend cantilevers without power, you can, in principle, use the motion to pass kinetic energy along to other MEMS devices.

"It's not hard to imagine a mechanical amplification system where the tiny motion of the cantilever is used to control a mechanism that punctures a medicine capsule when it recognizes that it's inside a tumor," said Theis.

In July, German company MicroTec announced an MEMS smart pill and a microsized submarine, both designed to do the same thing — harness MEMS devices to deliver drugs directly to specific needy cells.

MicroTec builds its microstructures in submicron layers, permitting different types of materials to be integrated into working mechanisms. Its submarine, for instance, measures just 4 mm in length and has 600 micron propellers driving a medicine capsule measuring just 650 microns in diameter.

MicroTech reports that it used a focused UV laser polymerization technique to structurally harden layers of materials before etching them into three-dimensional devices, including integrated magnets in the propeller and its 10-micron-diameter drive shaft.

28 posted on 06/17/2002 10:08:00 PM PDT by Ernest_at_the_Beach
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To: petuniasevan
Any idea if there is a mechanical movement with this?

Found the answer, didn't quite understand !
There is !

29 posted on 06/17/2002 10:11:14 PM PDT by Ernest_at_the_Beach
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To: Ernest_at_the_Beach
The Millipede chip uses silicon micromachining techniques to precisely move a silicon substrate coated with a thin-film polymer beneath an array of 1,024 parallel activated 20-nanometer read/write heads, which were also etched from silicon.

I was just thinking about this at lunch.

30 posted on 06/17/2002 10:12:56 PM PDT by Vince Ferrer
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To: Ernest_at_the_Beach
Wonder how many melt/remelt cycles per memory location the millipede is good for.
31 posted on 06/17/2002 11:22:34 PM PDT by Post Toasties
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To: Post Toasties
I have no idea , they probably have not worried about that as yet.
Initially they might use this for an archival type of memory!
32 posted on 06/17/2002 11:33:04 PM PDT by Ernest_at_the_Beach
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To: Tennessee_Bob
I can tell you some "true tales of tech support." Worked laptop/desktop support for a major manufacturer for 2.5 years.
...The naked woman.

Now that got my attention. Could you elaborate?

33 posted on 06/18/2002 8:38:17 AM PDT by Genesis defender
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To: Ernest_at_the_Beach
[A] "thousandfold increase in data-storage density," which would lead to petabit-sized devices.

Wow! Do you realize how many moose and cheese threads could be stored in just a single petabit?!? This will revolutionize FreeRepublic!

34 posted on 06/18/2002 8:44:30 AM PDT by Redcloak
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To: Genesis defender
Just another weird call. Woman calls in, we start troubleshooting her machine, after about three or four minutes, she tells me "I don't have any clothes on, is that ok?" I tell her that that is fine by me, I can't see a thing over the telephone. We keep working on the machine, she says it again, and asks again if that's alright, and again I tell her that I can't see anything, so she's fine. Finally, she tells me, "I've got to put something on, I'll be right back." After about two minutes, she comes back and tells me that she's now wearing a teddy, and hopes that that is ok. I put her on mute, and about swallowed my tongue laughing at her.
35 posted on 06/18/2002 8:48:42 AM PDT by Tennessee_Bob
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To: Tennessee_Bob
Should have asked her if she could hook up the picture phone or her webcam so you could inspect things better!
36 posted on 06/18/2002 11:50:25 AM PDT by Ernest_at_the_Beach
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To: Tennessee_Bob
I can tell you some "true tales of tech support."

Or the customer when asked to send me a copy of his diskette mailed a xerox copy.

37 posted on 06/18/2002 11:56:13 AM PDT by Semper Paratus
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To: Ernest_at_the_Beach
But we'd never get it accomplished if we didn't oppress the third world. /sarcasm
38 posted on 06/18/2002 7:07:35 PM PDT by Bogey78O
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To: Semper Paratus
Or the customer when asked to send me a copy of his diskette mailed a xerox copy.

I had a guy ask if he could get a copy of the internet on a cd...

39 posted on 06/20/2002 12:59:44 PM PDT by Dementon
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To: Dementon
I had a guy ask if he could get a copy of the internet on a cd...

Why not, there's been great strides in data compression.
but updating the CD would be a bitch.

40 posted on 06/21/2002 7:23:21 AM PDT by Semper Paratus
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