Although MEMS devices in various forms are now found in most electronic devices, predominantly in mobile, automotive, aerospace and many other applications, their major revolution, I believe, is yet to happen. We are seeing rapid innovation in MEMS reflected by their improvements in precision, performance, size reduction,… Read More
Ever since I started talking about Virtual Fabrication I have mostly looked at it from the manufacturers’ perspective, where it has obvious benefits to develop and model new process technology. But what about the fabless design concept and indeed even the semiconductor IP world that has spawned from it as well? It seems that Virtual… Read More
With the 51[SUP]st[/SUP] DACapproaching quickly, I spent some time last week-end to look around about what new trends, technologies and innovations will be most talked about during DAC. Every year, I find some exciting new technologies in the semiconductor industry and the overall semiconductor ecosystem that get wider exposure… Read More
A Virtual Platform for any kind of design or manufacturing in any discipline of science or engineering (electrical, mechanical, aeronautics etc.) must be able to provide an accurate representation of an actual design/product in a fraction of time and cost it takes to build working prototypes. In the case of semiconductors at … Read More
MEMS design and fabrication is highly complex in the sense that the fabrication process heavily depends on the design, unlike IC fabrication which has a standard set of processes. A slight change in MEMS design can alter its fabrication steps to a large extent. For example, setting device parameters such as capacitance or linear… Read More
By I-o-P, I mean Internet-of-People- I couldn’t think of anything better than this to describe a technology which becomes your custodian for everything you do; you may consider it as your good companion through life or an invariably controlling spy. This is obvious with the embedded sensor techno-products such as Kolibree, a … Read More
The design and manufacture of MEMS is very different and in many ways more complex process than even the most advanced ICs. MEMS involve multiple degrees of freedom (i.e. the device to exhibit different characteristics under different physical state, motion or mechanics), making fabrication of MEMS extremely complex; and hence… Read More
The growing process integration complexity at each technology node has increased development time and cost, and this trend looks to continue. There is a looming risk of delivering unrepeatable critical unit processes (or process modules) that would require revisiting development and manufacturing requalification or in … Read More
In the beginning of this decade there was a lot of buzz around 3D chip manufacturing. Many EDA tools were developed to facilitate semiconductor designs in 3D space. Naturally, we are moving to the edge on 2D without much room to further squeeze transistors and interconnect. However, lately I haven’t heard much about 3D products.… Read More
Engineers are always looking to improve the efficiency of how they work, but don’t want to sacrifice accuracy in the process. This is true in the world of semiconductor process development, where traditional build-and-test cycles are both time and resource intensive. But what if there was a way to do certain steps in a ‘virtual’… Read More
