What are you looking for ?
Advertise with us
RAIDON

SanDisk and Toshiba to Develop 32nm 32Gb NAND Flash Memory With 3 Bits Per Cell

Production expected in 2H09

SanDisk Corporation and Toshiba Corporation announced the co-development of multi-level cell (MLC) NAND flash memory using 32-nanometer (nm) process technology to produce a 32-gigabit (Gb) 3-bits-per-cell (X3) memory chip. The breakthrough introduction is expected to quickly bring to market advanced technologies that will enable greater capacities and reduce manufacturing costs for products ranging from memory cards to Solid State Drives (SSD).

sandisk_32nm

The development of our third-generation 3-bits-per-cell technology on 32nm within one and a half years after the introduction of the first generation of 3-bits-per-cell on 56nm shows the incredibly fast pace necessary to be a world-class producer in today’s industry,” said Sanjay Mehrotra, co-founder and president, SanDisk. “This allows us to offer higher capacities at compelling form factors while reducing manufacturing costs – all helping to expand our various product lines. This new development highlights SanDisk’s deep level of technical expertise and innovation that ultimately benefits consumers.”

32nm X3 Technology—Ideal for microSD Applications

The 32Gb X3 on 32nm technology is the smallest NAND flash memory die reported so far, able to fit into the fingernail-sized microSD memory card format that has enjoyed widespread adoption in mobile phones and other consumer electronics devices. The 32nm 32Gb X3 is the highest density microSD memory die in the world, providing twice the capacity of a microSD chip on 43nm while still maintaining a similar die area. Advances in 32nm process technologies and in circuit design significantly contributed to a 113mm² die-size while SanDisk’s patented All-Bit-Line (ABL) architecture has been a key enabler to maintain a competitive X3 write performance.

The 32nm X3 die’s small footprint and incredible density will allow for the production of higher capacities of microSD cards than could be manufactured without this technology,” said Yoram Cedar, executive vice president, OEM business unit and corporate engineering, SanDisk. “The microSD form factor has grown in popularity due to rising demand for high capacity storage on mobile phones, and X3 will enable us to bring exciting new products to this market.”

Based On Key SanDisk Technologies

32nm is the most advanced flash memory technology node to date, requiring advanced solutions to manage the challenges of feature size scaling. 32nm technology combines several innovative technologies to reduce die area more aggressively than the trend-line of Moore’s Law.

32nm technology builds upon SanDisk’s successful deployment of immersion lithography in 43nm to implement spacer process without incurring additional investment in capital-intensive lithography equipment,” said Dr. Klaus Schuegraf, vice president, memory technology, SanDisk. “SanDisk brings its industry-leading 64-bit NAND string length to 32nm, while compensating for bit-to-bit interference effects with innovative programming algorithms and system design.”

SanDisk and Toshiba today presented a joint paper on 32nm 32Gb X3 NAND flash memory at the 2009 International Solid State Circuits Conference (ISSCC), highlighting the technical advancements that made 32nm possible. Production for the 32nm 32Gb X3 is expected to begin in the second half of 2009.

Comments

32nm process technology is also on its way for future NOR flash chips and microprocessors.

Articles_bottom
ExaGrid
AIC
ATTOtarget="_blank"
OPEN-E