Tag Archives: More-than-Moore

The Last Technology Roadmap

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After many delays, the last ever International Technology Roadmap for Semiconductors (ITRS) has been published. Now that there are just a few companies remaining in the world developing new fab technologies in each of the CMOS logic and memory spaces, each leading-edge company has a secret internal roadmap and little motivation to compare directions within fiercely competitive  commercial markets. Solid State Technology Chief Editor Pete Singer covered these developments in his blog post early last year.

Rachael Courtland at IEEE Spectrum provides a great overview of the topic and interviews many of the key contributors to this last global effort. The article provides a nice graph to show how the previously predicted (in the just-prior ITRS 2013 edition) continued physical gate length reduction of CMOS transistors is now expected to stop in 2020. Henceforth, 3D stacking of transistors—perhaps built with arrays of Gate-All-Around NanoWires (GAA-NW)—will be the only way to get more density in circuitry but it will come with proportionally increasing cost.

As Gary Patton, CTO and SVP of Worldwide R&D for GlobalFoundries, mentioned during the 2016 Imec Technology Forum in Brussells, “We will continue to provide value to our customers to be able to create new products. We’re going to innovate to add value other than simple scaling.”

The 17 International Technology Working Groups (ITWGs) were replaced in 2015 by 7 Focus Teams in the last ITRS:  System Integration, Heterogeneous Integration, Heterogeneous Components, Outside System Connectivity, More Moore, Beyond CMOS and Factory Integration. The final reports from each Focus Team are available for free download from Dropbox.

The IEEE Rebooting Computing Initiative, Standards Association, and the Computer Society announced a new International Roadmap for Devices and Systems (IRDS) on 4th of May this year. Paolo Gargini is leading this work that began with the partnership between the IEEE RC initiative and the ITRS, with aspiration to build “a comprehensive end-to-end view of the computing ecosystem, including devices, components, systems, architecture, and software.”

In parallel to the IRDS efforts, the Heterogeneous Integration Roadmap activities will continue as sponsored by IEEE Components, Packaging and Manufacturing Technology Society (CPMT), SEMI  and the IEEE Electron Devices Society (EDS). Bill Bottoms is leading this collaboration with other IEEE Technical Societies that share interest in the Heterogeneous Technology Roadmap as well as to organizations outside IEEE that share this common vision for the roadmap.

—E.K.

Broadening Scope of SEMICON

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Once upon a time, SEMICONs were essentially just for semiconductor manufacturing business and technology, and predominantly CMOS ICs. Back when we followed public roadmaps for technology to maintain the cadence of new manufacturing nodes in support of Moore’s Law, it was sufficient to focus on faster transistors connected with tighter wires. Now in an era that is at least partially “More-than-Moore”—as we like to refer to heterogeneous integration of non-CMOS technologies into commercial ICs—SEMICON West 2016 will focus on technologies beyond silicon CMOS such as MEMS and flexible organic semiconductors.

Alissa Fitzgerald, founder and managing member of AM Fitzgerald & Associates, will present on some of these themes Wednesday afternoon during the “What’s Next in MEMS and Sensors: Innovations to Drive the Next Generation of Growth” session (Track 2) of SEMICON’s Advanced Manufacturing Forum. Much of that growth is expected to be in sensors, microprocessors, ultra-low-power supplies, and communications chips to support the Internet of Things (IoT) connected by high-speed 5G data networks.

Flexible/Hybrid Electronics Forum at SEMICON West this year includes two full days of excellent presentations on new technologies that include thinned device processing, device/sensor integrated printing and packaging, and reliability testing and modeling. The following is the full list of forums this year:

  • Advanced Manufacturing,
  • Advanced Packaging,
  • Extended Supply-Chain,
  • Flexible/Hybrid Electronics,
  • Silicon Innovation,
  • Sustainable Manufacturing,
  • Test, and
  • World of IoT.

Partner programs include focused forums discussing trends in technology, markets, and the business of commercial IC fabrication. The industry’s default center of “More Moore” R&D is now imec in Belgium, and invited attendees of the imec technology forum (ITF) in San Francisco happening on July 11th the day before the start of SEMICON West will learn about the latest results in CMOS device shrinking from finFETs to nanowires. The next evening, French R&D and pilot manufacturing center CEA-Leti will lead a workshop detailing how to partner with the organization to bring sensor-based “More-than-Moore” technologies to market. Thursday morning will feature the Entegris Yield Breakfast Forum discussing the need for new materials handling solutions due to “Yield Enhancement Challenges in Today’s Memory IC Production.”

As the official event website summarizes:  We’ve deepened our reach across the full electronics manufacturing supply chain to connect you with more key players — including major industry leaders like Cisco, Samsung, Intel, Audi, Micron, and more. New players, demand generators, systems integrators, and emerging industry segments — all connecting in one place. Keynote presentations will be provided by Cisco Systems, Kateeva, and Oracle.

—E.K.