3dfxzone.it
your source for 3dfx, hardware and gaming

Samsung annuncia i chip di memoria NAND 8Gb OneNAND

Share it on FacebookShare it on TwitterShare it on redditShare it on WhatsApp
09.05.2010 - Samsung annuncia i chip di memoria NAND 8Gb OneNAND

Con il comunicato stampa di seguito allegato Samsung Electronics ha annunciato la disponibilità dei primi sample di un nuovo chip di memoria NAND, prodotto con tecnologia a 30nm e avente una densità di 8Gb (gigabit), denominato OneNAND.

Si tratta di una soluzione sviluppata dal gigante coreano a partire da un design di tipo Single-Level-Cell (SLC) per la sezione di memoria NAND flash e indirizzata all'equipaggiamento degli smartphone, ambito per il quale viene richiesta una capacità di memorizzazione sempre più elevata di giorno in giorno, in virtù della operatività nativa in regime di low-voltage, o bassa tensione.

In accordo al produttore i chipe 8Gb OneNAND abbinano l'affidabilità tipica dei prodotti SLC-based a un livello prestazionale ben superiore a quello di una NAND tradizionale, potendo vantare un transfer rate massimo in lettura pari a 70MB/s, ovvero pari a circa quattro volte quello di una NAND classica (17MB/s). E' inoltre connesso con il passaggio dalla tecnologia di fabbricazione a 40nm a quella a 30nm, ossia con il livello di integrazione più spinto, l'incremento della produttività del 40% circa.

La produzione in volumi dei nuovi chip 8Gb OneNAND avrà inizio entro la fine del mese.


[Immagine ad alta risoluzione]


Samsung Electronics Co., Ltd., the world leader in advanced semiconductor technology solutions, today announced availability of an eight gigabit (Gb) OneNAND chip that takes advantage of advanced 30 nanometer (nm) class* process technology. Based on a single-level-cell (SLC) NAND flash design, the new high-density OneNAND addresses the need for more code data storage in smartphones, a trend being driven by the increasing use of diverse application software and larger amounts of multimedia software. The high-density OneNAND memory is now sampling with volume production scheduled by the end of this month.

"We are happy to see that our advanced 30nm-class NAND solution is being widely adopted in smartphones," said Sejin Kim, vice president, Flash memory planning/enabling, Samsung Electronics. "The availability of an 8Gb OneNAND chip will add considerably to our diverse line-up of advanced mobile memory solutions."

"Not only does our new OneNAND nicely address the need for higher density memory in smartphones, but it will enable the addition of many more features, bringing greater customer value, while broadening the scope of the OneNAND market."

The 8Gb OneNAND features the reliability of a SLC design and the proven performance of OneNAND, which reads data at 70 megabytes per second (MB/s), more than four times the speed of conventional NAND (17MB/s). These characteristics and a low-voltage design make it a particularly attractive solution for handling the growing amount of code data used with touch screens and other high resolution smartphone features.In addition, by applying advanced 30nm-class process technology, Samsung is able to raise productivity by 40 percent over its previous 40nm-class design.

Since 2004, Samsung has expanded the adoption of its OneNAND as a high-performance solution that can be applied to handset applications without having to develop separate software.

OneNAND memory can be used as buffer memory not only for ‘writes’ in the system – thanks to its faster-than-NAND ‘write’ speeds, but also as a buffer for faster, high-performing ‘read’ operations thank to its NOR flash interface.

According to market research firm, iSuppli, the demand for embedded NAND flash in mobile handsets is expected to reach 1.1 billion units (1 gigabyte (GB) equivalents) in 2010 and more than doubling to 2.5 billion 1GB equivalent units in 2011. Moreover, the Strategic Analysis firm forecasts that demand for smartphones will reach 285 million units in 2010 and grow to 580 million units in 2013.





News Source: Samsung Electronics Press Release
Links


News seguente


Pagina precedente
Pagina successiva

Might be interesting to you


3dfxzone.it desktop version

Copyright 2024 - 3dfxzone.it - E' vietata la riproduzione del contenuto informativo e grafico. Note Legali. Privacy