After Five Years, 28nm Future Remains Bright!
Five years ago TSMC started 28nm mass production and it went on to become one of the most versatile and successful process technologies in history. The first wave was triggered by an unprecedented demand for application processors from smartphone and tablet vendors. Today it’s widely assumed that 28nm demand will continue growing with the introduction of mid- and low-end smartphones, burgeoning Internet of Things applications, and other second-wave opportunities such as automotive.
Not resting on its laurels, TSMC recently announced several significant process improvements to offer its customers and they are increasing capacity to accommodate strong ongoing demand for 28nm solutions.
To read the full article, click here
Related Semiconductor IP
- 1.8V/3.3V Switchable GPIO with I2C, HDMI, LVDS, ESD & Analog in TSMC 28nm
- 10mA, Capless High PSRR LDO Regulator for RF and Analog Applications in TSMC 28nm
- 30mA, Capless High PSRR LDO Regulator for RF and Analog Applications in TSMC 28nm
- 40mA, Capless High PSRR LDO Regulator for RF and Analog Applications in TSMC 28nm
- 12-bit, 200 MSPS Pipeline ADC - TSMC 28nm
Related Blogs
- Moore's Law and 28nm Yield
- TSMC 28nm Design Advisory
- TSMC 28nm moves toward reality, with its retinue
- Altera's intros 28nm Stratix V FPGA family
Latest Blogs
- UALink Under the Hood: Why Full-Stack Verification Wins
- How to design secure SoCs Part IV: Runtime Integrity Protection
- High-Speed SerDes Design: Architecture, Equalization, and CDR Circuits
- NVMe 2.0 Explained: What’s New and Why It Matters
- Understanding USB4 Retimers and Their Role in Gen2 and Gen3 - Link Training