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| Processor | Intel Core 2 Quad Q6600 G0 VID: 1.2125 |
|---|---|
| Motherboard | GIGABYTE GA-P35-DS3P rev.2.0 |
| Cooling | Thermalright Ultra-120 eXtreme + Noctua NF-S12 Fan |
| Memory | 4x1 GB PQI DDR2 PC2-6400 |
| Video Card(s) | Colorful iGame Radeon HD 4890 1 GB GDDR5 |
| Storage | 2x 500 GB Seagate Barracuda 7200.11 32 MB RAID0 |
| Display(s) | BenQ G2400W 24-inch WideScreen LCD |
| Case | Cooler Master COSMOS RC-1000 (sold), Cooler Master HAF-932 (delivered) |
| Audio Device(s) | Creative X-Fi XtremeMusic + Logitech Z-5500 Digital THX |
| Power Supply | Chieftec CFT-1000G-DF 1kW |
| Software | Laptop: Lenovo 3000 N200 C2DT2310/3GB/120GB/GF7300/15.4"/Razer |
Intel Corporation and Micron Technology Inc. today announced mass production of their jointly developed 34nm, 32 gigabit multi-level cell (MLC) NAND flash memory device. Developed and manufactured by the companies' NAND flash joint venture, IM Flash Technologies (IMFT), the process technology is the most advanced process available on the market and enables the industry's only monolithic 32 Gb NAND chip that fits into a standard 48-lead thin small-outline package (TSOP). The companies are ahead of schedule with 34nm NAND production, expecting their Lehi facility to have transitioned more than 50 percent of its capacity to 34nm by year's end.
"We have made great strides in NAND process capability and are now in a leadership role with 34nm production," said Brian Shirley, vice president of Micron's Memory Group. "The tiny 34nm, 32 Gb chip enables our customers to easily increase their NAND storage capacity for a number of consumer and computing products."
"The results from IMFT continue to exceed our expectations," said Randy Wilhelm, vice president and general manager, Intel NAND Solutions Group. "With such clear leadership in NAND manufacturing, we are able to offer our customers NAND solutions with great value, performance and low power."
The 34nm, 32 Gb chips are manufactured on 300 mm wafers. Measuring just 172mm², less than the size of a thumbnail, the 34nm, 32 Gb chip will cost-effectively enable high-density solid-state storage in small form factor applications including digital cameras, personal music players and digital camcorders. Additionally, the chip will enable more cost-effective solid-state drives, dramatically increasing their current storage capacity.
The companies also plan to begin sampling lower density multi-level cell (MLC) and single-level cell (SLC) products using the 34nm process technology in early 2009.
View at TechPowerUp Main Site
"We have made great strides in NAND process capability and are now in a leadership role with 34nm production," said Brian Shirley, vice president of Micron's Memory Group. "The tiny 34nm, 32 Gb chip enables our customers to easily increase their NAND storage capacity for a number of consumer and computing products."
"The results from IMFT continue to exceed our expectations," said Randy Wilhelm, vice president and general manager, Intel NAND Solutions Group. "With such clear leadership in NAND manufacturing, we are able to offer our customers NAND solutions with great value, performance and low power."
The 34nm, 32 Gb chips are manufactured on 300 mm wafers. Measuring just 172mm², less than the size of a thumbnail, the 34nm, 32 Gb chip will cost-effectively enable high-density solid-state storage in small form factor applications including digital cameras, personal music players and digital camcorders. Additionally, the chip will enable more cost-effective solid-state drives, dramatically increasing their current storage capacity.
The companies also plan to begin sampling lower density multi-level cell (MLC) and single-level cell (SLC) products using the 34nm process technology in early 2009.
View at TechPowerUp Main Site
