With Haswell Refresh fully behind us and 2014 now in to its second half, Intel is turning their attention to their next generation of products and processes. Intel’s tick-tock methodology coupled with the long development periods of new products means that the company has several projects in flight at any given time. So while we have seen the name Broadwell on Intel’s roadmaps for some time now, the reality of the situation is that we know relatively little about Intel’s next generation architecture and the 14nm process that it is the launch vehicle for.

Typically we would see Intel unveil the bulk of the technical details of their forthcoming products at their annual Intel Developer Forum, and with the next IDF scheduled for the week of September 9th we’ll see just that. However today Intel will be breaking from their established standards a bit by not waiting until IDF to deliver everything at once. In a presentation coinciding with today’s embargo, dubbed Advancing Moore’s Law in 2014, Intel will be offering a preview of sorts for Broadwell while detailing their 14nm process.

Today’s preview and Intel’s associated presentation are going to be based around the forthcoming Intel Core M microprocessor, using the Broadwell configuration otherwise known at Broadwell-Y. The reason for this is a culmination of several factors, and in all honesty it’s probably driven as much by investor relations as it is consumer/enthusiast relations, as Intel would like to convince consumer and investor alike that they are on the right path to take control of the mobile/tablet market through superior products, superior technology, and superior manufacturing. Hence today’s preview will be focused on the part and the market Intel feels is the most competitive and most at risk for the next cycle: the mobile market that Core M will be competing in.

To that end Intel’s preview is very much a preview; we will see bits and pieces of Broadwell’s CPU architecture, GPU architecture, and packaging, along with information about Intel’s 14nm process. However this isn’t a full architecture preview or a full process breakdown. Both of those will have to wait for Intel’s usual forum of IDF.

Diving into matters then, Core M will be launch vehicle for Broadwell and will be released for the holiday period this year. In fact Intel is already in volume production of the Broadwell-Y CPU and production units are shipping to Intel’s customers (the OEMs) to begin production and stockpiling of finished devices for the holiday launch.

Intel’s decision to initially focus Broadwell on the mobile market comes as the company takes the next step in their plan to extend into the Core processor series into these devices. Arguably, Intel has been slow to response to the rise of ARM devices, whose rapid rise has undercut traditional PC sales and quickly become the biggest threat to Intel’s processor dominance in some number of years. Intel is far from doomed right now, but even they see the potential farther down the line if they do not act.

Intel for their part has responded, but it has taken a step-by-step (multi-year) process that has seen the company progressively build smaller and less power hungry CPUs in order to fit the needs of the mobile market. Since Intel integrated their graphics on-die with Sandy Bridge in 2011, the company has continued to tweak the designs of their products, with Ivy Bridge and Haswell generation products introducing further optimizations and new manufacturing processes. Now on their latest iteration with Broadwell, the company believes they’re turning a corner and have the technology they need to be a leader in the high performance mobile market. It's important to note that despite Intel's best intentions here, Broadwell and Core M remain targeted at premium devices. You won't see these parts in cheap tablets. The duty of doing battle with ARM remains Atom's alone. 

Many of these changes ultimately amount to boosting performance and reducing power consumption to a point where power and heat are where they need to be for mobile form factors, either through process efficiency improvements or through better power management and wider dynamic ranges – boosting where it matters and doing a better job of idling between tasks. However as Intel has discovered they not only need to be able to meet the TDP requirements of a tablet but they need to be able to meet the size requirements too. A particularly daunting task when the entire thickness of a device needs to be under 10mm, and the CPU thinner yet.

As a result, coupled with Core M’s performance improvements and power reductions is a strong emphasis on the size of the processor package itself and what Intel could do to reduce it. Intel calls this an outside-in system design, with various parts of Intel focusing on everything from the size of the logic board needed to hold the processor to the thickness of the processor die itself. In the following pages we’ll take a look at Intel’s efforts to get slim, but to kick things off we have a picture of Broadwell-Y from Computex 2014.


From left to right: Broadwell-Y (Core M), Broadwell ULT/ULX and Haswell ULT/ULX

Intel wants a greater foothold in the mobile market and they want it badly. And with Broadwell-Y they believe they finally have what they need to accomplish that goal.

Broadwell CPU Architecture
POST A COMMENT

158 Comments

View All Comments

  • Hrel - Tuesday, August 12, 2014 - link

    ". Intel has made it clear that they don’t regress on clockspeeds"

    lol, they often regress on clockspeeds.
    Reply
  • nikolayo - Wednesday, August 13, 2014 - link

    This sounds as a distraction meant to divert attention from the fact that Intel is about a year late with 14nm. It seems than the Moore's law will stop working quite soon. I would still bet on Intel being able to implement 10nm but that will likely be the end of the road for the current technology. And there is no clearly visible path beyond that. Not that progress will stop but it may slow down to the pace we observe e.g. in car design and production rather than what we are used to expect in chip design and production. Reply
  • asoltesz - Wednesday, August 20, 2014 - link

    Car design and production is being turned upside down by electric cars like Tesla.

    Apart from the comparisson, you may be right.
    Reply
  • lagittaja - Wednesday, August 13, 2014 - link

    Honestly. After reading the article. Which was really a good read and huge thanks to Ryan. All I can say is. Amazing. That is all. Reply
  • Oxford Guy - Thursday, August 14, 2014 - link

    "Intel’s solution to this problem is both a bit brute force and a bit genius, and is definitely unlike anything else we’ve seen on PC GPUs thus far. Since Intel can’t reduce their idle voltage they are going to start outright turning off the GPU instead;"

    That qualifies as genius these days? The most obvious method to reduce a GPU's power consumption is to turn it off.
    Reply
  • c plus plus - Saturday, August 16, 2014 - link

    intel is really amazing and i hope broadwell doubles both gpu and cpu performance with the help of magic
    Reply
  • Mr Pras - Tuesday, August 19, 2014 - link

    I liked the comments in this thread but was disturbed by the fan boys. Just because there was an amd marketer here doesn't mean that we should resort to intel worship. At least for me, those discussions are totally moot in this thread. Reply
  • Blaiser - Wednesday, September 17, 2014 - link

    Can somebody clarify this for me?

    Broadwell Core M is supposed to support fanless designs. Will Broadwell-U support fanless as well? Meaning will high end laptops with Broadwell-U be fanless? If not, will Skylake be able to have high end machines be fanless?
    Reply

Log in

Don't have an account? Sign up now