I/O Tile: Extended and Scalable Depending on Segment

The smallest of Meteor Lake's tiles is the I/O tile, which is primarily designed to offer additional connectivity features. This, of course, is down to two things; specific vendor's needs and the grade of processor itself. As Meteor Lake is scalable, the I/O tile is perhaps the crux of enabling specific features such as Thunderbolt 4 on devices. A lower-end Intel Core 3 Meteor Lake chip is likely to drop flashy I/O-specific features such as TB4 to save on cost, as entry-level notebooks aren't going to use it.

The higher end of the Meteor Lake product stack will feature Thunderbolt 4, and although it will be on the I/O tile for notebook vendors to utilize, having a scalable I/O fabric allows Intel to implement a modular approach to I/O features instead of one that is more one size fits all. The I/O tile includes additional PCIe lanes, but this number will vary depending on the processor itself; a higher-end chip will have more for additional storage needs, whereas a lower-end chip will have the minimum for connectivity and whatnot. Something else is that the I/O tile isn't a PCIe Coherent Fabric, which means data can only be transferred without the support for cache coherency between memory and devices.

SoC Tile, Part 3: Disaggregating Xe Media and Display Engine From Graphics Graphics Tile: New Xe-LPG Arc Based Integrated GPU
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  • erinadreno - Tuesday, September 19, 2023 - link

    Chiplets on mobile processors doesn't sound exactly enticing. Why does Intel feel the need to use 3 different types of chiplets from 2 foundries on a power-sensitive mobile chip?
  • jazzysoggy - Tuesday, September 19, 2023 - link

    It's not the same chiplet strategy as AMD is using for Zen, it's more inline with AMD's MI accelerators. Not as cheap as the Zen strategy, but much more power efficient for power sensitive mobile chips.
  • schujj07 - Tuesday, September 19, 2023 - link

    Do you have proof it is more power efficient? Intel right now is vastly less power efficient than AMD and that is regardless of chiplet or monolithic dies.
  • Unashamed_unoriginal_username_x86 - Tuesday, September 19, 2023 - link

    First page says .15-.3 pJ/bit for Foveros, AMD has previously stated infinity fabric uses "<2 pJ/bit" which presumably isn't very far under 2. this puts Intel at 5-10x the efficiency for this very specific part of data transmission
  • duploxxx - Wednesday, September 20, 2023 - link

    first generations of infinity fabric were also less power hungry, untill they noticed what is needed to get things faster and there you go. Lots of bandwidth changes and infinity fabric changes and as well the power usage... lets see what Intel is capable of doing first, it's marketing all over the place...
  • Samus - Tuesday, September 19, 2023 - link

    Intel is behind AMD on power efficiency purely due to process node. Architecturally they are quite competitive. This is proven in how AMD performance scales when underclocked compared to Intel.

    Anandtech recently did an investigation into this and came to the conclusion that while the architectures are vastly different they have potentially similar performance once you determine the ideal wattage for the chip, and at the moment Intel is pushing high TDP into extremely inefficient territory to have something competitive with AMD, due to AMD being on a superior node. Basically AMD can deliver X performance at 56w while Intel can deliver X performance at 72w, but Intel can deliver Y performance at 100w while AMD delivers Y performance at 95w.

    While impossible to absolutely prove, various factors can help determine this differential has more to do with manufacturing superiority than design superiority.

    Intel going for tiles here is a clear attempt to close the gap on this.
  • PeachNCream - Thursday, September 21, 2023 - link

    I think I'd second-guess anything Anandtech does these days. They had one person with an advanced degree that departed years ago after being bought out by Qualcomm when they owned Killer NICs and have since had trouble publishing articles without obvious typos and "in-a-hurry" oversights.

    On the other hand, if that data is supported by a more credible publisher that has decent measuring equipment and can afford to purchase its own test hardware rather than relying solely on free samples - well then we should sit up and take notice. At this point though, an Anandtech exclusive is just a reason to raise the citation needed flag and THEN further analyze the sources for their motives.
  • RedGreenBlue - Sunday, October 1, 2023 - link

    They’ve always had typos that slip through, or grammar mistakes. All the way back to Anand’s time. I don’t like it but I know what was intended when I see one. There still isn’t another website with the same focus on the segments they focus on. I miss the deep-dives into mobile chips and phones they used to do by investigating what wasn’t publicly released about things but for most people that’s a niche purpose that other sites cover extensively with reviews and can focus on and is a bit too consumer focused and easily found elsewhere. Not really their target market.
  • Composite - Thursday, September 28, 2023 - link

    This is indeed similar to MI250 2.5D fabric. However, MI300X is full 3D fabric.
  • elmagio - Tuesday, September 19, 2023 - link

    My personal guess, from the moment this was announced, has been that they want every single cm² of silicon going through their Intel 4/EUV capacity going to the compute tile. They're lagging quite a bit behind TSMC and Samsung in terms of EUV capacity, so anything that doesn't stand to benefit much from being designed from the ground up to be made on their own nodes is worth offloading to TSMC.

    SoC and IO tiles are really not process-limited currently, and their Arc GPUs are in general going manufactured elsewhere anyway. But their CPU design process has always been fully in house every step of the way, and they don't want to change that (at least not yet). So everything but compute would be "wasted" Intel 4 capacity.

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