Английская Википедия:90 nm process
Шаблон:Short description Шаблон:Use dmy dates Шаблон:About Шаблон:Refimprove Шаблон:Semiconductor manufacturing processes The 90 nm process is a level of MOSFET (CMOS) fabrication process technology that was commercialized by the 2003–2005 timeframe, by leading semiconductor companies like Toshiba, Sony, Samsung, IBM, Intel, Fujitsu, TSMC, Elpida, AMD, Infineon, Texas Instruments and Micron Technology.
The origin of the 90 nm value is historical; it reflects a trend of 70% scaling every 2–3 years. The naming is formally determined by the International Technology Roadmap for Semiconductors (ITRS).
The 193 nm wavelength was introduced by many (but not all) companies for lithography of critical layers mainly during the 90 nm node. Yield issues associated with this transition (due to the use of new photoresists) were reflected in the high costs associated with this transition.
Even more significantly, the 300 mm wafer size became mainstream at the 90 nm node. The previous wafer size was 200 mm diameter.
History
A 90Шаблон:Nbspnm silicon MOSFET was fabricated by Iranian engineer Ghavam Shahidi (later IBM director) with D.A. Antoniadis and H.I. Smith at MIT in 1988. The device was fabricated using X-ray lithography.[1]
Toshiba, Sony and Samsung developed a 90Шаблон:Nbspnm process during 2001Шаблон:Ndash2002, before being introduced in 2002 for Toshiba's eDRAM and Samsung's 2Шаблон:NbspGb NAND flash memory.[2][3] IBM demonstrated a 90Шаблон:Nbspnm silicon-on-insulator (SOI) CMOS process, with development led by Shahidi, in 2002. The same year, Intel demonstrated a 90Шаблон:Nbspnm strained-silicon process.[4] Fujitsu commercially introduced its 90Шаблон:Nbspnm process in 2003[5] followed by TSMC in 2004.[6]
Gurtej Singh Sandhu of Micron Technology initiated the development of atomic layer deposition high-k films for DRAM memory devices. This helped drive cost-effective implementation of semiconductor memory, starting with 90Шаблон:Nbspnm node DRAM.[7]
Example: Elpida 90 nm DDR2 SDRAM process
Elpida Memory's 90 nm DDR2 SDRAM process.[8]
- Use of 300 mm wafer size
- Use of KrF (248 nm) lithography with optical proximity correction
- 512 Mbit
- 1.8 V operation
- Derivative of earlier 110 nm and 100 nm processes
Processors using 90 nm process technology
- Sony/Toshiba EE+GS (PlayStation 2) - 2003[9]
- Sony/Toshiba/IBM Cell Processor - 2005
- IBM PowerPC G5 970FX - 2004
- IBM PowerPC G5 970MP - 2005
- IBM PowerPC G5 970GX - 2005
- IBM "Waternoose" Xbox 360 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
- NVIDIA GeForce 8800 GTS (G80) - 2006
- 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-2S+ - 2011-11
See also
References
External links
- ↑ Шаблон:Cite journal
- ↑ Шаблон:Cite news
- ↑ Шаблон:Cite web
- ↑ Шаблон:Cite news
- ↑ Шаблон:Cite web
- ↑ Шаблон:Cite web
- ↑ Шаблон:Cite web
- ↑ Elpida's presentation at Via Technology Forum 2005 and Elpida 2005 Annual Report
- ↑ Шаблон:Cite news