Pat Gelsinger Takes Us on a Trip Down Memory Lane – and a Look Ahead: Part 2

Contributed by Dick James, Fellow Emeritus, TechInsights

Having made the transition to FinFET, new generations followed, and we now have the Intel 7 Alder Lake part, released towards the end of last year.

As you can see, there’s a six-year gap between the 14-nm and 10-nm nodes, and there were actually four iterations of 14-nm to get to 10-nm. In the meantime, fins became taller, more vertical, thinner, and closer together to give more drive current per unit area. We also had evolution of the gate stack to allow a greater range of threshold voltages. These are images of a 10-nm part:

Alder Lake is currently under analysis…

After running through the last 50 years of processing Pat Gelsinger looked ahead. Intel 4 and Intel 3 will continue to be finFETs. We will then see another architectural change at the 20A node (Intel’s nomenclature) to gate-all-around technology (GAA), in Intel’s parlance RibbonFETs, (nanosheets).

Apart from the extra channel control, the GAA structure adds flexibility since we can vary the width and number of the sheets, so gate width is no longer quantized as with finFETs.

No mention was made of forksheet, imec’s introduction of a dielectric wall between NMOS and PMOS nanosheets; ultimately, to save area, we will get to stacked nanosheets, as described in Intel’s IEDM 2020 paper [5]:

When the 20A GAA generation is launched, Intel is planning to use their PowerVia technology, putting the power delivery metallization on the backside of the die:

So in the last 50 years we have gone from the 10-micron generation to the 5-nanometer, shrinking 2000x, and to analyze them we have gone from optical microscopes to the latest aberration-corrected electron microscope.

And we still have plenty of generations to come!

References

James, “From Strain to High-K/Metal Gate – the 65 – 45 nm Transition”, ASMC 2008
James, “High-k/Metal Gates in Leading Edge Silicon Devices”, ASMC 2012
Packan et al., “High Performance 32nm Logic Technology Featuring 2nd Generation High-k + Metal Gate Transistors”, IEDM 2009, pp. 659 – 662
Intel Accelerated event 26 July 2021 https://download.intel.com/newsroom/2021/client-computing/Intel-Accelerated-2021-presentation.pdf
C-Y Huang et al., “3-D Self-aligned Stacked NMOS-on-PMOS Nanoribbon Transistors for Continued Moore’s Law Scaling”, Proc IEDM 2020, paper 20.6, pp. 425-428

Shannon Davis

Shannon, writes, edits and produces Semiconductor Digest’s news articles, email newsletters, blogs, webcasts, and social media posts. She holds a bachelor’s degree in journalism from Huntington University in Huntington, IN. In addition to her years of freelance business reporting, Shannon has also worked in marketing and public relations in the renewable energy and healthcare industries.

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Pat Gelsinger Takes Us on a Trip Down Memory Lane – and a Look Ahead: Part 2

Shannon Davis

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