by Paul McLellan
At SEMICON last month, Rohit Pal of GlobalFoundries gave a presentation on their methodology for reducing process variation. It was titled Cpk Based Variation Reduction: 14nm FinFET Technology.
Capability indices such as Cpk is a commonly used technique to assess the variation maturity of a technology. It looks at a given parameter’s variability and compares it to 6 sigma. The higher the number the better, 1.33 should have the process yielding close to 100% (for that parameter) and 2 is the full 6 sigma. Using Cpk makes it easy to track metrics to assess variation improvement for a technology. They can also be used as a gating item for technology milestone achievement. However, it is not truly an absolute value, it is a function of the specification limits.
2014 International Conference on Simulation of Semiconductor Processes and Devices
September 9 – 11, 2014
Co-sponsored by The Japan Society of Applied Physics
Technical co-sponsored by The IEEE Electron Devices Society
This conference provides an opportunity for the presentation and discussion of the latest advances in modeling and simulation of semiconductor devices, processes, and equipment for integrated circuits.
By Steve Breit, Vice President Engineering
The CoventorWare 2014 release has been announced and is now available to customers. I presided over the first release of CoventorWare in 2001 and eight major releases since then with numerous updates in between. With each release, we added new capabilities, and capacity, speed, and accuracy improvements to address the ever more demanding requirements of our users. The new capabilities and performance improvements in each release are easy to talk about and receive all the glory. In this respect, CoventorWare 2014 is no different: the highlights are covered in our press release and a What’s New page elsewhere on our site; I won’t repeat them here. Instead, I want to talk about the steady improvements in the usability, robustness and quality of the software and the documentation. These improvements aren’t as glamorous as the shiny new stuff, but I believe they really matter to users. Our quality assurance team and our documentation team deserve a lot of credit for these improvements. They’re the unsung heroes of CoventorWare.
by Pawan Fangaria
We all know that Technology Computer Aided Design (TCAD) simulations are essential in developing processes for semiconductor manufacturing. From the very nature of these simulations (involving physical structure and corresponding electrical characteristics of a transistor or device), they are predominantly finite-element based simulations with complex set of equations to be solved which require large computation, thus increasing simulation time exponentially with the size of the device. It was okay for earlier generations of semiconductor technology nodes to rely on transistor or small cell level process and characterization to develop large designs which were then verified through several build-and-test cycles through actual foundries. However, for today’s nanometer technology nodes and large, complex, high-density designs with complex transistor structures like FinFET and others which exhibit excessive variability in manufacturing, it’s clear that the same old methodology will no longer be effective. . Along with the technology, the economics of chip manufacturing and marketing has become equally pressing, needing substantial reduction in P/Q ratio and very high TAT in order take advantage of ever shrinking windows of opportunity.
Semicon West is one of the iconic conferences in the semiconductor industry and annually attracts the key movers and shakers who are involved with how we are going to keep Moore’s Law moving forward, among other things. It’s known rightfully so, as a ‘big iron’ show with the top manufacturing equipment companies showing off their newest machines for the major steps in the manufacture of semiconductors – wafer processing, assembly packaging and test.
It’s not all about the equipment of course, or even just manufacturing. The show has done a good job of expanding to include a wider ecosystem of companies, products and topics that impact chip design as well. So while the majority of attendees come from companies that produce chips – foundries and IDMs – as well as the supporting production services, Semicon visitors also include the fabless companies who really aren’t in the market for manufacturing equipment. read more…
by Paul McLellan
One of Coventor’s flagship products is SEMulator3D, and at Semicon West they announced a new version, 2014.100.
SEMulator3D is a powerful 3D semiconductor and MEMS process modeling platform. It uses highly efficient physics-driven voxel modeling technology. It models the physical effects of process steps, which is where all the current challenges are.
Combining the two-dimensional design layout with the process description gives it the capability to model the process flows and determine what will be manufactured with that combination of layout and process. The basic idea, as with all modeling, is to enable experiments to be done quickly and efficiently. Since the alternative is to actually build chips and then take measurements, which is millions of dollars of investment and months of delay, the virtual fabrication route is especially attractive. This is especially important in the early stages of process development since it can drastically shorten the whole development and ramp to volume roadmap.