SAN FRANCISCO—In an unexpected move, Globalfoundries Inc. said Thursday (Sept. 20) it plans to offer 14-nanometer process technology featuring FinFET three-dimensional transistors in 2014, just one year after the foundry's 20-nm process is scheduled to enter production.
The move could allow Globalfoundries (Milpitas, Calif.) to leapfrog foundry rivals and pose a challenge to Intel Corp.'s semiconductor process technology supremacy.
"Globalfoundries is getting extremely aggressive in their manufacturing roadmap," said Len Jelinek, director and chief analyst at IHS iSuppli. "They recognize that in order to be in a technology leadership position foundry, they have to be in a leading position across all semiconductor manufacturing, including Intel."
[Get a 10% discount on ARM TechCon 2012 conference passes by using promo code EDIT. Click here to learn about the show and register.]
Globalfoundries said its 14-nm XM process combines a 14-nm class FinFET and elements of the company's 20-nm low power process. Executives said the 14-nm FinFETs have a 48-nm fin pitch, the same as the company expects Intel Corp. to feature on its 14-nm tri-gate process. Other feature size measurements are also identical to what Intel is expected to offer at 14-nm, they said.
The acceleration of its process technology development roadmap will likely give Globalfoundries a clear technology lead over other dedicated foundry suppliers. Taiwan Semiconductor Manufacturing Co. (TSMC) and United Microelectronics Corp. (UMC) have indicated that they plan to integrate FinFETs in their 20-nm processes, which UMC is set to put in production in the second half of 2014 and TSMC likely some time after.
Executives said the new process would give customers the technology needed to compete with Intel, the undisputed leader in semiconductor process technology. Intel began production of 22-nm devices with FinFETS—which Intel calls tri-gates—earlier this year.
Mike Noonan, executive vice president of worldwide marketing and sales at Globalfoundries, said the company pulled in its roadmap specifically to "intercept" Intel at 14-nm. "The goal is to give our customers the power and performance to compete with Intel," Noonan said.
A conventional planar FET (left) and a FinFET. FinFETs offer greater power efficiency because they operate at a lower Vdd and have lower leakage.
FinFETs are three-dimensional, double gate transistors that have been the subject of research by companies and universities for more than a decade. FinFETs consume less power than conventional transistors. Globalfoundries maintains that its 14-nm XM technology is expected to deliver a 40 to 60 percent improvement in battery life compared with today's two-dimensional transistors.
Globalfoundries should focus on being able to make 20nm planar work before they make promises on 14nm FinFET technologies, if they can't make 20nm planar devices work then 14nm FinFETs will be nearly impossible. Lots of smoke here ...... We will see if customers can tape out early designs in 2014 in 14nm.
Again, it is an EUV marketing chant. If with breakthrough, arrogant like ASML won't invite Intel,TSMC, Samsung to invest her recently. Intel even urged ASML to expedite ArF immersion development in 450mm lithograpgy. I guess we would stick on 20nm for a long while and 28nm or 20nm node would be a historically sweet spots for foundries.
The backers of Globalfoundries have deep pockets but I think competing with Intel is an unhealthy obsession for them. I like profitable foundries that keep the mature processes going so people can make lots of mixed-mode chips.
Maybe you better get some more details on this. You don't want longer pulse, you want larger duty cycle and shorter pulse duration. And it turns out the resist dose window will not even benefit from a power boost.
EUV little comprehended has found a breakthrough high average energy source ( ~100x greater than laser plasma EUV sources ) and you might end up eating your words in 2-3 years when the source integration is completed. There was an announcement by a U?Washington plasma physics prof about a Zpinch EUV plasma source ( discharge is magnetically confined by a current sheath ) that makes a simple longer pulse source of extraordinary net average power increase for EUV illumination.
I have little understanding of the technical issues relating to the source integration into the ASML EUV stepper, but the source itself is apparently a possibly compelling breakthrough.
Within weeks of disclosure of the source breakthrough by its professor inventor I think I remember that ASML issued an announcement that timeline for EUV "deployment" has been pulled in .... ( implying they will be using the source, but not mentioned at all )
I think there is a change that production viability prospects for EUV might have improved significantly, but this is as yet just decent speculation, based on ?coincidences of a technical nature ( from a process engineer )
January 2016 Cartoon Caption ContestBob's punishment for missing his deadline was to be tied to his chair tantalizingly close to a disconnected cable, with one hand superglued to his desk and another to his chin, while the pages from his wall calendar were slowly torn away.122 comments