A quick news piece on information coming out of Intel’s annual Investor Day in California. As confirmed to Ashraf Eassa by Intel at the event, Intel’s 8th Generation Core microarchitecture will remain on the 14nm node. This is an interesting development with the recent launch of Intel’s 7th Generation Core products being touted as the ‘optimization’ behind the new ‘Process-Architecture-Optimization’ three-stage cadence that had replaced the old ‘tick-tock’ cadence. With Intel stringing out 14nm (or at least, an improved variant of 14nm as we’ve seen on 7th Gen) for another generation, it makes us wonder where exactly Intel can promise future performance or efficiency gains on the design unless they start implementing microarchitecture changes.

Despite this, if you were to believe supposed ‘leaked’ roadmaps (which we haven’t confirmed from a second source as of yet), the 8th Generation product ‘Cannon Lake’ is more geared towards the Y and U part of Intel’s roadmap. This would ring true with a mobile first strategy that Intel has mirrored with recent generations such that the smaller, low power chips are off the production line for a new product first, however we'd also expect 10nm to also be in the smaller chips first too (as demonstrated at CES). Where Cannon Lake will end up in the desktop or enterprise segment however remains to be seen. To put something a bit more solid into this, Ashraf also mentioned words from Dr. Venkata ‘Murthy’ Renduchintala, VP and GM of Client and IoT:

‘Murthy referred to it at the event, process tech use will be ‘fluid’ based on segment’.

If one read too much into this, we may start seeing a blend of process nodes for different segments at the same time for different areas of the market. We already do have that to some extent with the mainstream CPUs and the HEDT/Xeon families, but this phrasing seems that we might get another split between consumer products or consumer and enterprise. We may get to a point where Intel's 'Gen' naming scheme for its CPUs covers two or more process node variants.

Speaking of the Enterprise segment, another bit of information has also surfaced, coming from a slide during a talk by Diane Bryant (EVP/GM of Data Center) and posted online by Ashraf. The slide contains the words ‘Data center first for next process node’

We can either talk about process node in terms of the ‘number’, either 14nm/10nm/7nm, or by variants within that process (high power, high efficiency). One might suspect that this means Intel is moving hard and fast with 10nm for Xeons and big computing projects, despite showing off 10nm silicon at CES earlier this year. That being said, it’s important to remember that the data center market is large, and includes high-density systems with many cores, such as Atom cores, and Intel did recently open up its 10nm foundry business to ARM Artisan IP projects. So while the slide does say ‘Data center first’, it might be referring to DC projects based on ARM IP in that segment rather than big 4-24+ core Xeons. At this stage of the game it is hard to tell.

On top of all this, Intel still has extreme confidence in its foundry business. An image posted by Dick James of Siliconics from the livestream shows Intel expects to have a three-year process node advantage when its competitors (Samsung, TSMC) start launching 10nm:

I’ve been brief with this news for a reason - at this point there are a lot of balls in the air with many different ways to take this information, and the Investor Day is winding down on talks and finishing with smaller 1-on-1 meetings. We may get further clarification on this news as the day goes on.

Update 1: On speaking with Diane Bryant, the 'data center gets new nodes first' is going to be achieved by using multiple small dies on a single package. But rather than use a multi-chip package as in previous multi-core products, Intel will be using EMIB as demonstrated at ISSCC: an MCP/2.5D interposer-like design with an Embedded Multi-Die Interconnect Bridge (EMIB).


An Intel Slide from ISSCC, via PC Watch

Initially EMIB was thought of as a technology relating to Intel's acquisition of Altera and potential future embedded FPGA designs, and given the slide above and comments made at the Investor Day, it seems there are other plans for this technology too. The benefit of using multiple smaller dies over a large monolithic 600mm2 die is typically related to cost and yield, however the EMIB technology also has to be up to par and there may be a latency or compatibility trade-off.

Source: Intel, @TMFChipFool

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  • Meteor2 - Friday, February 10, 2017 - link

    See my post above. It looks like Cannonlake and Coffee Lake will have the same architecture, but be be differentiated by power class and process node.
  • Xajel - Sunday, February 12, 2017 - link

    I'm more interested in the mobile parts of Coffee Lake, the U series will finally be 4 cores, and more importantly the H series will have 6 cores !!... I hope they really come in 2018...
  • justincranford@hotmail.com - Monday, February 13, 2017 - link

    Why is Coffee Lake missing from this article? Preliminary information about post-Kaby Lake already said process will diverge. Cannon Lake 10nm will be released side-by-side with Coffee Lake 14nm.

    https://en.wikipedia.org/wiki/Coffee_Lake_(CPU)

    Only high margin markets (ex: laptops) will move to 10nm (Cannon Lake). Lower margin markets (ex: mainstream desktops) will remain on 14nm node (Coffee Lake). That will make four (!) 14nm iterations in a row (Broadwell Skylake, Kaby Lake, Coffee Lake). Yuck!

    The only saving grace for Coffee Lake 14nm is increased core count for mainstream desktops. Higher core counts from Intel are only available in enthusiast ($$$) lines (ex: Broadwell 14nm). Coffee Lake 14nm will bring higher core counts (ex: 6 core/12 thread, or higher) down from enthusiast desktops to mainstream desktops. Intel will only be about 9 months behind AMD Ryzen for 8 core/16 thread mainstream desktops when Coffee Lake 14nm is launched. I hope it is more than a recycled Broadwell 14nm.
  • cocochanel - Monday, February 13, 2017 - link

    Boy, that wafer looks sexy!!!

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