03:31PM EDT - Tiger Lake - generational improvement for graphics and CPU

03:31PM EDT - From 9W to 65W

03:32PM EDT - New AI features for new workloads

03:32PM EDT - USB4, PCIe4, TB4

03:32PM EDT - Increased power efficiency

03:33PM EDT - More cache, more performance, better efficiency, more headroom, more features

03:34PM EDT - New process technology

03:34PM EDT - new transistor

03:34PM EDT - SuperFin

03:35PM EDT - optimized non-perf critical IPs for the new transistor to allow for more headroom for the perf-critical stuff

03:35PM EDT - Improved Metal Stack

03:35PM EDT - To new high perf layers at the top

03:36PM EDT - New SuperMIM

03:36PM EDT - Here's the high level diagram

03:36PM EDT - Different power envelopes might have different amount of cores

03:36PM EDT - (which means 8 core is coming later at 65 W)

03:37PM EDT - Four Willow cove cores, 96 EUs of Xe graphics

03:37PM EDT - LPDDR5-5400 support, PCIe 4.0 x4

03:37PM EDT - 12 MB non-inclusive L3

03:37PM EDT - 1.25 MB non-inclusive L2

03:37PM EDT - 4x4K display pipes

03:38PM EDT - IPU6 - two different flavors based on the chip config (?!?)

03:38PM EDT - Improved Debug

03:39PM EDT - GNA 2.0 does up to 38 GigaOPs, 1 GOP per watt (and it scales)

03:40PM EDT - Better FIVR

03:41PM EDT - Total Memory Encyption support

03:41PM EDT - Willow Cove in Tiger Lake

03:41PM EDT - Built on Sunny Cove base

03:42PM EDT - Had three options - IPC, improve circuits on freq for SuperFin, or a mix

03:42PM EDT - The second was used - focus on frequency

03:42PM EDT - Also cache adjustments and security

03:43PM EDT - Willow Cove has a better dynamic range - better perf/watt at all points and much higher voltage/freq

03:44PM EDT - Now to 96 EUs

03:44PM EDT - More info on Xe later

03:45PM EDT - Increased bandwidth

03:45PM EDT - Dual ring architecture

03:45PM EDT - IO caching

03:46PM EDT - Up to 86 GB/s on DRAM

03:47PM EDT - Increased display support - but depends on memory configurations. Added dedicated fabric path to memory, up to 64 GB/s

03:48PM EDT - PCIe 4.0 at 8 GB/s

03:48PM EDT - 100ns less latency for CPU attach compared to PCH attach

03:48PM EDT - Integrated TB4 and USB4, full compliance

03:48PM EDT - Display via Type-C using DP tunneling over TB

03:50PM EDT - Overall better power management for better idle power and quicker entry/exit

03:50PM EDT - DVFS on fabric

03:52PM EDT - More than a generational improvement in a single product cycle

03:53PM EDT - Q&A time

03:54PM EDT - Q: Only 4 CPU cores? What's the range? A: Will depend on the SKU config, announced in product launch in September.

03:54PM EDT - Q: Additional latency for TME? A: No disclosing.

03:54PM EDT - Q: Perf impact of TME? A: See the product launch at Sep 2

03:55PM EDT - Q: BW of TME? A: No loss of BW

03:55PM EDT - Q: PL2? A: See Sep 2 product launch.

03:56PM EDT - Q: Is incoming PCIe traffic cached in LLC? A:You can.

03:56PM EDT - Q: What sort of frequency is DVFS? A: No hard numbers. We sample the utilization and we can offer a fine granularity. (so once per hour?)

03:57PM EDT - Q: L2 latency with increased cache size? A: No answer.

03:58PM EDT - Client have always used L3 is inclusive - we now use non-inclusive. Once you grow that L2 cache to 1.25 MB, making L3 inclusive would consume 5 MB.

03:59PM EDT - Now there's an hour break for lunch, before Raja's keynote. Come back then!

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  • Hifihedgehog - Tuesday, August 18, 2020 - link

    You are exactly right. It is all smoke and mirrors. Intel has fallen dreadfully behind the market's moving target. I have little hope they will be able to return to their former grace. They can brag all they want. Ice Lake's 10nm process was broken to begin with, worse than 14nm. It is nothing big to brag about small potatoes when the needle is still far behind the competition. Reply
  • Spunjji - Friday, August 21, 2020 - link

    If everything they're saying about it is true, then Tiger Lake will be the first design manufactured on a 10nm process that delivers what was promised in the first place. In theory, that's enough to get them back to a place of competition *if* the yields are also good.

    The long wait for the 8-core variant of Tiger (and no mention of it on desktop) suggests that either the yields are still not very good, or the procedures necessary to get yields and performance to acceptable levels have reduced overall output (e.g. more manufacturing stages / layers).

    Either way, they're not going to have any problem competing in a market sense - they have enough cash to buy a lot of sales.
    Reply
  • eek2121 - Monday, August 17, 2020 - link

    It is amazing as a desktop chip.

    Ian: has Intel confirmed an 8 core 65W model?
    Reply
  • maroon1 - Monday, August 17, 2020 - link

    65w is likely to the top part Reply
  • Jorgp2 - Monday, August 17, 2020 - link

    Yeah, no.

    Also, doesn't matter if the Intel 4 core runs just as well as the AMD 8 core.
    Reply
  • frbeckenbauer - Monday, August 17, 2020 - link

    they didn't say 8 cores at first, hence my comment. Makes more sense like this of course. Reply
  • Jimbo11 - Monday, August 17, 2020 - link

    Listen first before you make any nonsense comments. Reply
  • FreckledTrout - Monday, August 17, 2020 - link

    Intel is really infatuated with "super". SuperFin now SuperMIM? Its getting to be a bit much especially with the avengers gimmick recently. Reply
  • frbeckenbauer - Monday, August 17, 2020 - link

    Intel Marketing is dubious, but this process node really deserves a better name than 10nm+ if it delivers on these promises. Reply
  • Spunjji - Tuesday, August 18, 2020 - link

    These promises just take it a little bit past where it was supposed to be in the first place. 10nm+ would have been appropriate (although if we're really counting this is 10nm++ now). Reply

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