NVM OTP NeoBit in Maxchip (180nm, 160nm, 150nm, 110nm, 90nm, 80nm)
200mm Fabs Thriving; SEMI's Updated 200mm Fab Report Now Available
SAN FRANCISCO, Calif. -- July 11, 2017 -- Today, at SEMICON West in San Francisco, Calif., SEMI issued an update to its 200mm Fab Outlook report, with improved and expanded report forecasting of 200mm fab trends out to 2021. SEMI’s analysts updated information on over 100 facilities, including the latest new facilities and investment projects in China. The extensive new report "Global 200mm Fab Outlook to 2021" by SEMI tracks production, pilot, and R&D 200mm facilities worldwide with special attention on capacity expansions and new facilities.
Examining 200mm capacity over the years, the highest level of 200mm capacity was recorded in 2007 and the lowest following this peak in 2009 (see figure). The capacity decline from 2007 to 2009 was driven by the 2008-2009 global financial crisis, which caused the closure of many facilities, and by the transition of memory and MPU fabrication to 300mm fabs from 200mm.
Since 2009, installed 200mm fab capacity has increased, and by 2020, 200mm capacity is expected to reach almost 5.7 million wafers per month (wpm), and poised to surpass the 2007 peak. According to SEMI’s World Fab Forecast data, by the end of this year, installed capacity will reach close to 5.4 million wpm.
Driven by mobile and wireless applications, IOT, and automotive, the 200mm market is thriving. Many of these products found their niche on 200mm wafers, so companies are expanding capacity in their facilities to the limit, and nine new 200mm facilities are in the pipeline. Looking only at IC volume fabs, the report shows 188 fabs in production in 2016 and expanding to 197 fabs by 2021.
China will add most of the 200mm capacity through 2021 with 34 percent growth rate from 2017 to 2021, followed by South East Asia with 29 percent and the Americas with 12 percent.
The Global 200mm Fab Outlook to 2021, published by SEMI in July 2017, includes two files: a 92-page pdf file featuring trend charts, tables and summaries and an Excel file covering 2010 to 2021 detailing on quarterly basis and fab-by-fab developments. This is the third update since the report was first launched in 2015. Since the last report was published in November 2016, the SEMI analyst team has made 232 changes or updates to 132 fabs. The report tracks over 300 facilities using 200mm wafers from R&D, EPI, LED fabs to volume IC fabs. For more information, visit: http://info.semi.org/semi-200mm-fab-outlook
About SEMI
SEMI® connects nearly 2,000 member companies and 250,000 professionals worldwide annually to advance the technology and business of electronics manufacturing. SEMI members are responsible for the innovations in materials, design, equipment, software, and services that enable smarter, faster, more powerful, and more affordable electronic products. Since 1970, SEMI has built connections that have helped its members grow, create new markets, and address common industry challenges together. SEMI maintains offices in Bangalore, Beijing, Berlin, Brussels, Grenoble, Hsinchu, Seoul, Shanghai, Silicon Valley (Milpitas, Calif.), Singapore, Tokyo, and Washington, D.C. For more information, visit www.semi.org.
|
Related News
- We'll Need Many More Fabs to Meet $1 Trillion by 2030 Goal
- Global 200mm Fabs to Reach Record High Capacity by 2026, SEMI Reports
- Global 200mm Semiconductor Fab Capacity Projected to Surge 20% to Record High by 2025, SEMI Reports
- 200mm Semiconductor Fab Capacity Set to Surge 21% to Mitigate Supply-Demand Imbalance, SEMI Reports
- New Semiconductor Fabs to Spur Surge in Equipment Spending, SEMI Reports
Breaking News
- Arm loses out in Qualcomm court case, wants a re-trial
- Jury is out in the Arm vs Qualcomm trial
- Ceva Seeks To Exploit Synergies in Portfolio with Nano NPU
- Synopsys Responds to U.K. Competition and Markets Authority's Phase 1 Announcement Regarding Ansys Acquisition
- Alphawave Semi Scales UCIe™ to 64 Gbps Enabling >20 Tbps/mm Bandwidth Density for Die-to-Die Chiplet Connectivity
Most Popular
E-mail This Article | Printer-Friendly Page |