Virtual fabrication technology was used to identify different process integration schemes to enable the fabrication of a new design architecture for advanced logic SRAM cells: Six Stacked Vertical Transistors. Read the insights: https:// hubs.ly/H0H--Pl0
In collaboration with imec, we developed a methodology of coupling SEMulator3D® with BSIM compact modeling to evaluate process variation impacts on circuit performance. Explore more: https:// hubs.ly/H0HbcYb0
Professor Jérôme Juillard shares his valuable insights into using MEMS+ as a crucial new solution for teaching MEMS… https://t.co/n4luYa1y53
Our two-day online course on SEMulator3D® will begin tomorrow! Join us and @CMCMicrosystems for some lectures and h… https://t.co/sHxtSbJbUl
With virtual fabrication models and calibrated process libraries, process engineers can obtain expected results from a process change in a few short hours, without the costly time and expense of wafer-based testing. Learn more in our latest blog: https:// hubs.ly/H0GKqql0
Explore how SEMulator3D®'s Process Window Optimization (PWO) can help determine nominal process conditions and vari… https://t.co/R43uCzaoa8
We are excited to have an expanded technology sharing collaboration with CMC Microsystems, bringing advanced softwa… https://t.co/Z5bRuEYQZw
In this study, we will demonstrate how SEMulator3D can be used to study micro loading and manufacturing variability… https://t.co/vM3sIlFp62
The visibility dependent etch feature in SEMulator3D® offers a method to model etch rates similar to those in an ac… https://t.co/h697DVyXWx
Today, MEMS microphones are not only used to record plain ambient sound, but they support stereo capabilities, acti… https://t.co/o3YEQTcDP5
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