Intel on Thursday announced that it would delay mass production of its 10 nm processors from 2018 to 2019 due to yield issues. The company has claimed to be shipping some of its 10 nm chips in small volumes right now, but due to cost reasons the firm does not intend to initiate their high-volume manufacturing (HVM) at this time. Intel executives also stated that they are confident of their product roadmap and intend to launch Whiskey Lake and Cascade Lake products later this year.

Multipatterning Issues

Brian Krzanich, CEO of Intel, stated during a conference call with financial analysts:

“We are shipping [10-nm chips] in low volume and yields are improving, but the rate of improvement is slower than we anticipated. As a result, volume production is moving from the second half of 2018 into 2019. We understand the yield issues and have defined improvements for them, but they will take time to implement and qualify.”

Intel blames a very high transistor density and consequent heavy use of multipatterning for low yields. Brian Krzanich has said that in certain cases the company needs to use quad (4x), penta (5x), or hexa (6x) patterning for select features as they need to expose the wafer up to six times to “draw” one feature. This not only lengthens Intel’s manufacturing cycle (which by definition rises costs) and the number of masks it uses, but also has an effect on yields.

Intel’s 10 nm fabrication technology relies solely on deep ultraviolet (DUV) lithography with lasers operating on a 193 nm wavelength at this time. The company’s 7 nm manufacturing process will use extreme ultraviolet (EUV) lithography with laser wavelength of 13.5 nm for select layers, eliminating use of extreme multipatterning for certain metal layers. As it appears, right now Intel executives do not consider EUV technology ready for prime time in 2019, so the company’s engineers have to polish off the last DUV-only process (again) rather than jump straight to 7 nm.

10 nm Ramp in 2019

Intel does not elaborate whether it intends to ship (in volume) its 10 nm CPUs in the first half or the second half of 2019, but only says that the company’s engineers know the source of the yield problems and are working hard to fix them. As a result, it is pretty safe to assume that the actual ramp of Intel’s 10 nm production will begin towards the second half of next year.

“We are going to start that ramp as soon as we think the yields are in line, so I said 2019,” Mr. Krzanich noted. “We did not say first or second half, but we will do it as quickly as we can, based on the yield.”

In a bid to stay competitive before its 10-nm CPUs ship in the H2 2019 – H1 2020 (production ramp takes time, bigger processors will launch later than smaller parts), Intel plans to release another generation of products made using its 14 nm process tech. This generation of chips includes Whiskey Lake products for client PCs and Cascade Lake for the datacenter, and both are scheduled for release later this year.

Questions Remain: 10 nm Slip from 2016

Intel’s 10 nm manufacturing process has a long history of delays and without any doubts this transition has been the hardest in the company’s history. Let's do a quick recap.

  Intel
First Production
1999 180 nm
2001 130 nm
2003 90 nm
2005 65 nm
2007 45 nm
2009 32 nm
2011 22 nm
2014 14 nm
2016 10 nm
2017 10 nm
2018 10 nm?
2019 10 nm!

Intel originally planned to commence shipments of its first processors made using their 10 nm fabrication technology in the second half of 2016. The first rumors about Intel’s problems with the tech started to spread in early 2015 as the company delayed the installation of equipment needed for its 10 nm manufacturing process. Then, in July 2015, the chip giant confirmed intentions to postpone 10 nm HVM from H2 2016 to H2 2017 due to difficulties incurred by multipatterning. Instead, the company promised to release its Kaby Lake products with enhancements and made using a refined 14 nm process (known as 14+ later).

Over the course of 2016 and 2017 we learned that Intel was prepping Cannon Lake (mobile, entry-level desktops), Ice Lake (higher-end client PCs, servers), and Tiger Lake chips on their 10 nm node. We also heard about various problems that Intel faced with its 10 nm technology, but the company refuses to comment on them. The chipmaker did demonstrate a system running a mobile Cannon Lake SoC at CES 2017, with a promise to release this processors late that year. Somewhere along the line, both Ice Lake and Tiger Lake slipped to 2018, which was partly confirmed by the launch of the Coffee Lake CPU made using a revamped 14 nm (14++) in late 2017.

Intel officially introduced the 10 nm fabrication process at IEDM 2017 and said it was on track to start shipments of CNL CPUs in early 2018. In January this year Intel confirmed that they had started to ship Cannon Lake processors in small volumes, but never elaborated. We have since learned that these were CNL-U parts in uninspiring 2+2 and CNL 2+0 configurations, however so far Intel has refused to state who the customer is or where anyone can buy them, despite repeated requests for this information.

Being a very large company, Intel has a multifaceted strategy that spans across product lines and generations. Right now, Intel is battling with yield issues that plague its Cannon Lake product family and the first-gen 10 nm manufacturing process. There are other 10 nm products in the pipeline that are to be made using a refined fabrication technology (such as 10+, 10++). It is pretty obvious that Intel will learn how to improve its 10 nm yields with the CNL lineup, but what remains to be seen is how significantly the delays of this product family affect launch schedules of its successors. Despite Intel's statements, there is outside discussion that Intel could decide to switch right to 7 nm, bypassing 10 nm altogether.

Related Reading

Sources: Intel, SeekingAlpha

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  • peevee - Monday, April 30, 2018 - link

    "without proof that Ge can be used to produce features smaller, and still deterministic, than can be done with Si"

    Smaller features is not the goal in itself. 10GHz CPU can be half the size (in transistors) of 5GHz CPU and still win on performance. Just an example. Of course it is pure question whether or not Ge is able of that. I am NOT saying that it is. Just that the industry have to look at something else very hard at this point. Even if EUV works eventually.
    It is quite possible that at some point we will start seeing hybrids, like Si logic on graphene buses on separate layers.
    Reply
  • FunBunny2 - Wednesday, May 2, 2018 - link

    "10GHz CPU can be half the size (in transistors) of 5GHz CPU and still win on performance."

    yes and no. that requires a boolean (or some other) logic that can build an ALU, etc. with 50% of transistors. that's an improvement which doesn't depend on the atom used. if you really mean chip real estate, Ge is more than twice the size of Si, so said ALU would have to be 25% of the Si equivalent. since Ge is so much fatter than Si, one might speculate that a feature of a given atom count could handle more current/power.

    yes, Ge/Si hybrid gates are being explored. whether they're a slam dunk way to avoid Heisenberg???
    Reply
  • xeroshadow - Tuesday, May 1, 2018 - link

    And why wouldn't they? Despite AMD creating competition again, actually making profit for a whole year and great reviews from tech sites, Intel still made more profit in one quarter than AMD all year. When AMD has a billion in profit in one quarter then AMD fans can celebrate. Until then, Intel still gets to coast on its market dominance, superior manufacturing(at least in quantity that AMD can't match) and I'm sure the many contracts they have with the big OEMs. That is something that will take AMD years to claw back because even when they have a competitive product, it seems some big players stay away due to lack of manufacturing in quantity.

    Despite glowing reviews on AMD products they still always include a "but Intel has" line that always makes the reader second guess. They could coast on the i7 8700 and other Coffee Lake processors for another couple years. Unless AMD comes out with something that costs less, has 20% better performance AND uses less power than a competing Intel product, then Intel has no need to rush 10nm.

    Nearly the same goes for Nvidia not including back door dealings like GPP.
    Reply
  • peevee - Tuesday, May 1, 2018 - link

    "superior manufacturing(at least in quantity that AMD can't match)"

    AMD does not have manufacturing at all, but can manufacture at fabs more than market can consume.

    But the reality is most CPUs today require built-in graphics (because they are used by businesses or normal home users, not extreme gamers), and Intel offers better CPUs (for example, 6 cores vs 4 at the top).
    Reply
  • Boston Jackson - Monday, May 7, 2018 - link

    The first rumors about Intel’s problems with the tech started to spread in early 2015 as the company delayed the installation of equipment needed for its 10 nm manufacturing process.

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    Reply

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