And in a related announcement, Intel said Monday that it has validated a fix for its new 34-nanometer X25-M solid-state drive, which is based on similar flash memory technology. The bug affects users who set a BIOS drive password. That update is available here.

SanDisk and Toshiba disclosed in February that they had developed 4-bit-per-cell technology, which the two companies said was the highest-capacity flash memory technology in the industry.

Updated at 9:10 a.m. PDT: adding analyst comments.

While packing more bits into a cell provides greater data densities, it is not as reliable as flash memory based on more standard technology, according to Kevin Kilbuck, director of NAND marketing at Micron. Therefore, the 3-bits-per-cell chips will be limited initially to flash drives, which don’t require the data storage reliability of a solid-state drive, which is used as the primary storage device in laptops and servers.

On Tuesday, Intel and Micron Technology announced the development of high-data-capacity flash memory technology for flash cards and USB drives.

But Handy added that he expects the Intel-Micron chip by 2010 to “cause snags for the other vendors in the market: Samsung, and Hynix/Numonyx” and potentially be more profitable than the competition.

Intel-Micron chip will enable high-capacity USB drives

The two chipmakers, which partner in the manufacture of flash memory chips, said Tuesday that they have developed NAND flash memory capable of 3 bits per cell based on 34-nanometer technology. This allows greater data density than the standard 2-bits-per-cell technology and will result in high-capacity USB flash drives, according to Micron.

Micron is currently sampling the chips and will be in mass production in the fourth quarter.

(Credit:
Lexar)

“The chip is not for all markets,” according to Jim Handy of semiconductor market researcher Objective Analysis, writing in a research note published Tuesday about the technology. “The companies explained that they need more experience in production volumes before they will be confident to position it as a chip suitable for the high-write environment of the SSD,” he said. Handy is referring to the fact that users of solid-state drives typically record data at a much greater frequency than consumers who, for example, buy flash drives for digital cameras.