| Daftar/Tabel -- semiconductor scale examples Products featuring 10 µm manufacturing process Products featuring 3 µm manufacturing process Products featuring 1.5 µm manufacturing process Products featuring 1.0 µm manufacturing process Products featuring 0.8 µm manufacturing process Products featuring 0.6 µm manufacturing process Products featuring 350 nm manufacturing process Products featuring 250 nm manufacturing process Processors using 180 nm manufacturing technology Processors using 130 nm manufacturing technology Chips using 90 nm manufacturing technology- IBM PowerPC G5 970FX - 2004
- IBM PowerPC G5 970MP - 2005
- IBM PowerPC G5 970GX - 2005
- IBM "Waternoose" Xbox 360 Processor - 2005
- IBM/Sony/ Toshiba Cell Processor - 2005
- Intel Pentium 4 Prescott - 2004-02
- Intel Celeron D Prescott-256 - 2004-05
- Intel Pentium M Dothan - 2004-05
- Intel Celeron M Dothan-1024 - 2004-08
- Intel Xeon Nocona, Irwindale, Cranford, Potomac, Paxville - 2004-06
- Intel Pentium D Smithfield - 2005-05
- AMD Athlon 64 Winchester, Venice, San Diego, Orleans - 2004-10
- AMD Athlon 64 X2 Manchester, Toledo, Windsor - 2005-05
- AMD Sempron Palermo and Manila - 2004-08
- AMD Turion 64 Lancaster and Richmond - 2005-03
- AMD Turion 64 X2 Taylor and Trinidad - 2006-05
- AMD Opteron Venus, Troy, and Athens - 2005-08
- AMD Dual-core Opteron Denmark, Italy, Egypt, Santa Ana, and Santa Rosa
- VIA C7 - 2005-05
- Loongson (Godson) 2Е STLS2E02 - 2007-04
- Loongson (Godson) 2F STLS2F02 - 2008-07
- MCST-4R - 2010-12
- Elbrus-2C+ - 2011-11
Processors using 65 nm manufacturing technology Processors using 45 nm technology Chips using 32 nm technology- Intel Core i3 and i5 processors, released in January 2010[4]
- Intel 6-core processor, codenamed Gulftown[5]
- Intel i7-970, was released in late July 2010, priced at approximately USD$ 900
- AMD FX Series processors, codenamed Zambezi and based on AMD's Bulldozer architecture, were released in October 2011. The technology utilised a 32 nm SOI process, two CPU cores per module, and up to four modules, ranging from a quad-core design costing approximately USD$130 to a $280 eight-core design.
- Ambarella Inc. announced the availability of the A7L system-on-a-chip circuit for digital still cameras, providing 1080p60 high-definition video capabilities in September 2011[6]
Chips using 22 nm technology- Toshiba announced that it was shipping 24 nm flash memory NAND devices on August 31, 2010.[7]
- Hynix Semiconductor announced that it could produce a 26 nm flash chip with 64 Gb capacity; Intel Corp. and Micron Technology had by then already developed the technology themselves. Announced in 2010.[8]
- Intel Core i7 and Intel Core i5 processors based on Intel's Ivy Bridge 22 nm technology for series 7 chip-sets went on sale worldwide on April 23, 2012.[9]
References- ^ http://forums.parallax.com/showthread .php?130327-Propeller-I-semiconductor -process-technology-Is-it-350nm-or-18 0nm
- ^ TG Daily – AMD preps 65 nm Turion X2 processors
- ^ http://focus.ti.com/pdfs/wtbu/ti_omap 3family.pdf
- ^ "Intel Debuts 32-NM Westmere Desktop Processors". InformationWeek, 7 January 2010. Retrieved 2011-12-17.
- ^ Sal Cangeloso (February 4, 2010). "Intel’s 6-core 32nm processors arriving soon". Geek.com. http://www.geek.com/articles/chips/in tels-6-core-32nm-processors-arriving- soon-2010024/. Retrieved November 11, 2011.
- ^ "Ambarella A7L Enables the Next Generation of Digital Still Cameras with 1080p60 Fluid Motion Video". News release. September 26, 2011. Retrieved November 11, 2011.
- ^ Toshiba launches 24nm process NAND flash memory
- ^ Article reporting Hynix 26 nm technology announcement
- ^ Intel launches Ivy Bridge...
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