Beyond flash -- memories are made of this

Jul 22, 2009
Beyond flash -- memories are made of this
An array developed by the VERSATILE project. (c)VERSATILE

(PhysOrg.com) -- The race is on for a successor to the popular 'flash' memory used in portable devices. European researchers think they have found a candidate in novel materials combined with a simple, easily fabricated 'crossbar' architecture.

When you turn off your mobile phone you don’t lose the address book. That’s because data is stored in ‘non-volatile’ that remember your precious contacts even when the power is off.

The most popular non-volatile technology is called ‘flash’ and it is found in the ubiquitous USB memory stick as well as mobile phones, digital cameras and many other portable devices. Some of the small but popular ‘netbook’ computers store all their data in , removing the need for a hard disk drive.

But there are limits to what flash can do, says Dr Grazia Tallarida of the Laboratorio Nazionale MDM, near Milan, the coordinator of the VERSATILE project. “Making these devices smaller and also enlarging their capacity is becoming more and more difficult. So there is a lot of work now to find different technologies for non-volatile memories.”

One of the most promising is based on ‘phase change’ or ‘resistive change’ materials. “These are materials in which you store information - zero or one - by changing the ,” Tallarida explains. “They just need a voltage drop across them to be switched between an ‘off’ state and an ‘on’ state.”

Crossbar architecture

An array of tiny memory cells, made from materials such as , can be sandwiched between two sets of parallel conductors, at right angles to each other, so that a voltage can be applied to any cell. This is known as crossbar architecture.

One problem is that the closely packed cells can interfere with each other and degrade the performance of the memory. The solution is to connect each cell through a diode to ensure that cells only respond to the signal intended for them. And that is where the EU-funded VERSATILE project comes in. “The main point is not researching the memory cell itself,” Tallarida says, “but about the crossbar architecture and the diodes that are needed to build the crossbar devices.”

While the design is potentially simple and cheap to make, the memory array is laid down on top of other circuitry and that means that the temperature in the manufacturing process must be kept below 350 degrees Celsius. That rules out the use of silicon diodes, which need much higher temperatures in their fabrication.

Instead, the VERSATILE partners have designed a diode based on zinc oxide, a material not normally used in conventional CMOS technology, but which only needs temperatures of around 100 degrees.

The project involves research labs in Germany, Denmark and Poland as well as Italy. The  industrial partner is Numonyx, a joint venture of Intel and STMicroelectronics set up in 2008 to exploit the market for non-volatile memory.

Stacked arrays

So far they have built a prototype array of 10,000 cells, each measuring 5 micrometres across. Each cell stores one bit, so this array has a capacity of 10 kilobits or about 1.2 kilobytes. By using a computer simulation, the partners have shown that an array of 100 million cells - 12 megabytes - could be integrated on to a chip using the same technology.

A big advantage of the crossbar architecture is that arrays can simply be stacked - one on top of the other - on a single chip to build up devices with large storage capacities.

“What we are doing now, the last part of the project, is to demonstrate that this can be scaled down to a much smaller size,” says Tallarida.

The team is currently fabricating an experimental 25-cell array with 100-nanometre cells and will try an even smaller scale if it is successful.

VERSATILE complements another project, EMMA, also funded by the EU’s Sixth Framework Programme for research and both ending this summer. EMMA has been developing materials for the memory cells themselves and supplied the nickel oxide cells used by VERSATILE.

Tallarida sees great potential in taking the results from the two projects to create an even better memory chip. “That could be the starting point for continuing with the work: some combination of the diode with the cell to see if the complete approach works.”

Organic semiconductors

She would also like to pursue another idea examined earlier in the project of using organic semiconductor diodes. “We think that there is also a need for an effort to push through the combination of organic and inorganic semiconductors. That could be interesting especially for low-cost or even disposable devices.”

Crossbar technology could ultimately take over from flash, especially in the mass consumer market. “You could obtain the same microchip at lower cost while still keeping the reliability and performance.”

It could also have applications for disposable products such as medical devices, smart cards, toys and games.

Korean giant Samsung is known to be working on a similar technology but Tallarida says that the new VERSATILE has a lower noise level than Samsung’s equivalent which means that more cells could be packed into a smaller space.

Could Europe make an impact in this area? In principle, yes, but it’s a mighty competitive market.

“This is one of those fields you have to arrive in before the others,” Tallarida points out. “It makes a difference!”

More information: www.mdm.infm.it/Versatile

Provided by ICT Results

Explore further: New technology reduces size of spinal stimulator implants

add to favorites email to friend print save as pdf

Related Stories

Remembering the future

Nov 15, 2007

As electronics designers cram more and more components onto each chip, current technologies for making random-access memory (RAM) are running out of room. European researchers have a strong position in a new ...

Silicon nanowires upgrade data-storage technology

Jun 09, 2007

Scientists at the National Institute of Standards and Technology, along with colleagues at George Mason University and Kwangwoon University in Korea, have fabricated a memory device that combines silicon nanowires with a ...

Recommended for you

Redbox raising DVD rental rates by 25 percent

9 minutes ago

Redbox is raising its DVD rental prices by 25 percent beginning next week in an effort to wring more revenue from the shrinking audience that still watches movies on the discs instead of Internet video services such as Netflix.

Wireless electronic implants stop staph, then dissolve

44 minutes ago

Researchers at Tufts University, in collaboration with a team at the University of Illinois at Champaign-Urbana, have demonstrated a resorbable electronic implant that eliminated bacterial infection in mice ...

Knightscope K5 on security patrol roams campus

1 hour ago

A Mountain View, California-based company called Knightscope designs and builds 5-feet, 300-pound security guards called K5, but anyone scanning last week's headlines has already heard about them, with the ...

User comments : 2

Adjust slider to filter visible comments by rank

Display comments: newest first

sender
not rated yet Jul 22, 2009
bi-stable liquid crystal UV sensitive diodes or transistor arrays would make specific signalling simple
guiding_light
not rated yet Jul 23, 2009
How many crosspoint layers to overtake the cost of single layer flash? hopefully many, but is this true?

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.