tag: 7nm

EUV Reaches A Crossroads
By Mark LaPedus - 20 Mar, 2014 - Comments: 3

[gettech id="31045" comment="EUV"] (EUV) [getkc id="80" comment="lithography"] is at a crossroads. 2014 represents a critical year for the technology. In fact, it may answer a pressing question about EUV: Does it work or not? It’s too early to make that determination right now, but there are more uncertainties than ever for the oft-delayed technology. Originally aimed for the 65nm node in... » read more

Advanced Lithography: Moore’s Law Moves On
By Marc David Levenson - 20 Mar, 2014 - Comments: 1

Every February, experts in nano patterning technologies converge in San Jose, Calif., to present their road maps, brainstorms and results at the SPIE Advanced Lithography Symposium. This year, there was more confusion than ever, partly the result of sessions in unlabeled (but beautiful) new ballrooms at the Convention Center, but mostly because of industry divergences. There is no longer a s... » read more

The Search For The Next Transistor
By Mark LaPedus - 20 Feb, 2014 - Comments: 3

In the near term, the leading-edge chip roadmap looks fairly clear. Chips based on today’s finFETs and planar fully depleted silicon-on-insulator (FDSOI) technologies are expected to scale down to the 10nm node. But then, the CMOS roadmap becomes foggy at 7nm and beyond. The industry has been exploring a number of next-generation transistor candidates, but suddenly, a few technologies are ... » read more

Executive Insight: Luc Van den hove
By Mark LaPedus - 20 Feb, 2014 - Comments: 1

Semiconductor Engineering sat down to discuss current and future process technology challenges with Luc Van den hove, president and chief executive of Imec. What follows are excerpts of that conversation. SE: The industry is simultaneously working on several new and expensive technologies. This includes extreme ultraviolet (EUV) lithography and the next-generation 450mm wafer size. The indu... » read more

Interconnect Challenges Grow
By Mark LaPedus - 20 Feb, 2014 - Comments: 0

Qualcomm outlined the technology challenges facing mobile chip suppliers at a recent event. In no particular order, the challenges include the usual suspects—area scaling, power reduction, performance and cost. Another concern for Qualcomm is an often-overlooked part of the equation—the backend-of-the-line (BEOL). In chip production, the BEOL is where the interconnects are formed within ... » read more

What’s After CMOS?
By Mark LaPedus - 24 Jan, 2014 - Comments: 3

Chipmakers continue to scale the CMOS transistor to finer geometries, but the question is for how much longer. The current thinking is that the CMOS transistor could scale at least to the 3nm node in the 2021 timeframe. And then, CMOS could run out of gas, prompting the need for a new switch technology. So what’s after the CMOS-based transistor? Carbon nanotubes and graphene get the most a... » read more

Waiting For Next-Generation Lithography
By Mark LaPedus - 23 Jan, 2014 - Comments: 2

Nearly 30 years ago, optical lithography was supposed to hit the wall at the magical 1 micron barrier, prompting the need for a new patterning technology such as direct-write electron beam and X-ray lithography. At that time, however, the industry was able to push optical lithography for volume chip production at the 1-micron node and beyond. This, in turn, effectively killed direct-write e-... » read more

Leti Outlines FDSOI And Monolithic 3D IC Roadmaps
By Mark LaPedus - 14 Nov, 2013 - Comments: 0

Semiconductor Engineering discussed the future roadmaps for fully depleted silicon-on-insulator (FDSOI) technology and monolithic 3D chips with Maud Vinet, manager for the Innovative Devices Laboratory at CEA-Leti. SE: What are some of the technologies being developed at the Innovative Devices Laboratory? Vinet: The Innovative Devices Laboratory is involved with advanced CMOS. So basically... » read more

What’s After 10nm?
By Mark LaPedus - 14 Nov, 2013 - Comments: 0

For some time, chipmakers have roughly doubled the transistor count at each node, while simultaneously cutting the cost by around 29%. IC scaling, in turn, enables faster and lower cost chips, which ultimately translates into cheaper electronic products with more functions. Consumers have grown accustomed to the benefits of Moore’s Law, but the question is for how much longer? Chips based ... » read more

EDA Shows Continued Growth
By Ed Sperling - 16 Oct, 2013 - Comments: 0

EDA and IP revenue jumped 3.8% in Q2 to $1.65 billion, up from $1.59 billion in the same period in 2013, spurred by the need for new tools to design, create and verify SoCs using 16/14nm finFETs. Sequentially, the numbers reported by the EDA Consortium were down slightly from Q1, but the four-quarter moving average—considered a more reliable number because tools sales are long-term investm... » read more

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