Home > 20nm, 450mm, EDA, global semiconductor industry, global semiconductor market, John Chilton, Semiconductors, Synopsys > Semicon in sub-20nm era: Business as usual or different?

Semicon in sub-20nm era: Business as usual or different?

May 21, 2013

We are now entering the sub-20nm era. So, will it be business as usual or is it going to be different this time? With DAC 2013 around the corner, I met up with John Chilton, senior VP, Marketing and Strategic Development for Synopsys to find out more regarding the impact of new transistor structures on design and manufacturing, 450mm wafers and the impact of transistor variability.

Impact of new transistor structures on design and manufacturing
First, let us understand what will be the impact of new transistor structures on design and manufacturing.

John Chilton.

John Chilton.

Chilton said: “Most of the impact is really on the manufacturing end since they are effectively 3D transistors. Traditional lithography methods would not work for manufacturing the tall and thin fins where self-aligned double patterning steps are now required.

“Our broad, production-proven products have all been updated to handle the complexity of FinFETs from both the manufacturing and the designer’s end.

“From the design implementation perspective, the foundries’ and Synopsys’ goal is to provide a transparent adoption process where the methodology (from Metal 1 and above) remains essentially the same as that of previous nodes where products have been updated to handle the process complexity.”

Given the scenario, will it be possible to introduce 450mm wafer handling and new lithography successfully?

According to Chilton: “This is a question best asked of the semiconductor manufacturers and equipment vendors. Our opinion is ‘very likely’.” The semiconductor manufacturers, equipment vendors, and the EDA tool providers have a long history of introducing new technology successfully when the economics of deploying the technology is favorable.

The 300nm wafer deployment was quite complex, but was completed, for example. The introduction of double patterning at 20nm is another recent example in which manufacturers, equipment vendors and EDA companies work together to deploy a new technology.

Impact of transistor variability and other physics issues
Finally, what will be the impact of transistor variability and other physics issues?

Chilton said that as transistor scaling progresses into FinFET technologies and beyond, the variability of device behavior becomes more prominent. There are several sources of device variability.

Random doping fluctuations (RDF) are a result of the statistical nature of the position and the discreteness of the electrical charge of the dopant atoms. Whereas in past technologies the effect of the dopant atoms could be treated as a continuum of charge, FinFETs are so small that the charge distribution of the dopant atoms becomes ‘lumpy’ and variable from one transistor to the next.

With the introduction of metal gates in the advanced CMOS processes, random work function fluctuations arising from the formation of finite-sized metal grains with different lattice orientations have also become important. In this effect, each metal grain in the gate, whose crystalline orientation is random, interacts with the underlying gate dielectric and silicon in a different way, with the consequence that the channel electrons no longer see a uniform gate potential.

The other key sources of variability are due to the random location of traps and the etching and lithography processes which produce slightly different dimensions in critical shapes such as fin width and gate length.

“The impact of these variability sources is evident in the output characteristics of FinFETs and circuits, and the systematic analysis of these effects has become a priority for technology development and IP design teams alike,” he added.

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  1. Helen
    May 24, 2013 at 7:24 pm

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