GlobalFoundries Unveils FinFET Transistor

Oct. 31, 2012
GlobalFoundries launched a new technology designed for the expanding mobile market.

GlobalFoundries launched a new technology designed for the expanding mobile market. The company's 14nm-XM offering will give customers the performance and power benefits of three-dimensional "FinFET" transistors with less risk and a faster time-to-market, helping the fabless ecosystem maintain its leadership in mobility while enabling a new generation of smart mobile devices.

The XM stands for "eXtreme Mobility," and it is the industry's leading non-planar architecture that is truly optimized for mobile system-on-chip (SoC) designs, providing a whole product solution from the transistor all the way up to the system level. The technology is expected to deliver a 40-60% improvement in battery life when compared to today's two-dimensional planar transistors at the 20nm node.

The 14nm-XM offering is based on a modular technology architecture that uses a 14nm FinFET device combined with elements of GlobalFoundries’ 20nm-LPM process, which is well on its way to production. Leveraging the maturity of the 20nm-LPM technology will enable a smooth transition for customers looking to tap the benefits of FinFET SoCs as soon as possible. Technology development is already underway, with test silicon running through its Fab 8 in Saratoga County, N.Y. Early process design kits (PDKs) are available now, with customer tape-outs expected in 2013.

"We have more than a decade of FinFET R&D to build on as we prepare to bring this technology to production," said Gregg Bartlett, Chief Technology Officer. "We are confident this foundation will enable us to lead the foundry volume ramp of FinFETs, just as we did with High-K Metal Gate (HKMG)."

The FinFET architecture takes the traditional two-dimensional transistor design and turns the conductive channel on its side, resulting in a three-dimensional "fin" structure surrounded by a gate that controls the flow of current. A key benefit of FinFET technology is its superior low-power attributes. The 3D transistor design intrinsically operates at a lower voltage with minimal current leakage, which translates into longer battery life for mobile applications or less power consumption for plugged-in applications such as networking chips in datacenters.

"Many people don't realize that FinFETs build upon the same fundamental mobile driving force as today's HKMG technology," said G. Dan Hutcheson, CEO and Chairman of VLSI Research. "While HKMG was a significant innovation in leakage reduction, FinFETs are a great leap forward in this value proposition that clear the way for many years of advancements. But to fully extract the value of FinFET technology, a company needs to be in volume production of HKMG. GlobalFoundries has a head start in this area with almost two years of high-volume manufacturing experience with HKMG."

GlobalFoundries has developed a new approach to technology definition that has resulted in a cost-effective and power-optimized FinFET technology that is ideally suited for the mobile SoC market. The 14nm-XM architecture strikes the ideal balance between performance and power consumption, while minimizing both die size and cost. At the same time, the technology has been architected for optimum manufacturability and ease of design, with a view to allowing designers to re-use much of their IP from previous generations. Additionally, consideration is given to SoC-level concerns beyond the transistor architecture, such as overall system-level performance and specific mobile applications needs.

Another critical aspect of delivering a fully SoC-optimized solution is the ability to leverage the entire ecosystem of industry expertise, from EDA and design solutions partners to providers of IP. FinFET technology comes with new considerations, especially for the design community. Process R&D and technology architecture teams have been working closely with both internal design teams as well as design ecosystem partners to co-optimize the technology and design environments.

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