There are days in this profession in which I am surprised. The longer I stay in the technology industry, they become further and further apart. There are several reasons to be surprised: someone comes out of the blue with a revolutionary product and the ecosystem/infrastructure to back it up, or a company goes above and beyond a recent mediocre pace to take on the incumbents (with or without significant financial backing). One reason is confusion, as to why such a product would ever be thought of, and another is seeing how one company reacts to another.

We’ve been expecting the next high-end desktop version of Skylake for almost 18 months now, and fully expected it to be an iterative update over Broadwell-E: a couple more cores, a few more dollars, a new socket, and done. Intel has surprised us with at least two of the reasons above: Skylake-X will increase the core count of Intel’s HEDT platform from 10 to 18.

The Skylake-X announcement is a lot to unpack, and there are several elements to the equation. Let’s start with familiar territory: the first half of the processor launch.

Announcement One: Low Core Count Skylake-X Processors

The last generation, Broadwell-E, offered four processors: two six-core parts, an eight-core part, and a top-tier 10-core processor. The main difference between the two six-core parts was the PCIe lane count, and aside from the hike in pricing for the top-end SKU, these were iterative updates over Haswell-E: two more cores for the top processor.

This strategy from Intel is derived from what they call internally as their ‘LCC’ core, standing for ‘low core count’. The enterprise line from Intel has three designs for their silicon – a low core count, a high core count, and an extreme core count: LCC, HCC, and XCC respectively. All the processors in the enterprise line are typically made from these three silicon maps: a 10-core LCC silicon die, for example, can have two cores disabled to be an 8-core. Or a 22-core XCC die can have all but four cores disabled, but still retain access to all the L3 cache, to have an XCC processor that has a massive cache structure. For the consumer HEDT platform, such as Haswell-E and Broadwell-E, the processors made public were all derived from the LCC silicon.

The first half of the Skylake-X processor llineup follows this trend. Intel will launch four Skylake-X processors based on the LCC die, which for this platform will have a maximum of 12 cores. All processors will have hyperthreading.

Skylake-X Processors (Low Core Count Chips)
  Core i7-7800X Core i7-7820X Core i9-7900X Core i9-7920X
6/12 8/16 10/20 12/24
Base Clock 3.5 GHz 3.6 GHz 3.3 GHz TBD
Turbo Clock 4.0 GHz 4.3 GHz 4.3 GHz TBD
TurboMax Clock N/A 4.5 GHz 4.5 GHz TBD
L3 8.25 MB 11 MB 13.75 MB TBD
(Likely 13.75 MB)
PCIe Lanes 28 44 TBD
(Likely 44)
Memory Channels 4
Memory Freq DDR4-2400 DDR4-2666 TBD
Price $389 $599 $999 $1199

The bottom processor is the Core i7-7800X, running at 3.5 GHz with a 4.0 GHz turbo. This design will not feature Intel’s new ‘favored core’ Turbo 3.0 technology (more on that below), but will have six cores, support quad-channel memory at DDR4-2400, come in at a TDP of 140W, have 28 PCIe lanes, and retail for around $400. This processor will be the entry level model, for any user who needs the benefit of quad-channel memory but perhaps doesn’t need a two-digit number of cores or has a more limited budget.

Next up is the Core i7-7820X, which hits a potential sweet spot in the LCC design. This is an eight-core processor, with the highest LCC base clock of 3.6 GHz and the joint-highest turbo settings: 4.3 GHz for regular turbo and 4.5 GHz for favored core. Unlike the previous processor, this CPU gets support for DDR4-2666 memory.

However in another break from Intel’s regular strategy, this CPU will only support 28 PCIe lanes. Normally only the lowest CPU of the HEDT stack would be adjusted in this way, but Intel is using the PCIe lane allocation as another differentiator as a user considers which processor in the stack to go for. This CPU also runs in at 140W, and comes in at $600. At this price, we would expect it to be competing directly against AMD’s Ryzen 7 1800X, which will be the equivalent of a generation behind in IPC but $100 cheaper.

Comparison: Core i7-7820X vs. Ryzen 7 1800X
Core i7-7820X
Features AMD
Ryzen 7 1800X
8 / 16 Cores/Threads 8 / 16
3.6 / 4.3GHz
(4.5 GHz TMax)
Base/Turbo 3.6 / 4.0 GHz
28 PCIe 3.0 Lanes 16
11 MB L3 Cache 16 MB
140 W TDP 95 W
$599 Price (MSRP) $499

The third processor is also a change for Intel. Here is the first processor bearing the new Core i9 family. Previously we had Core i3, i5 and i7 for several generations. This time out, Intel deems it necessary to add another layer of differentiation in the naming, so the Core i9 naming scheme was the obvious choice. If we look at what the Core i9 name brings to the table, the obvious improvement is PCIe lanes: Core i7 processors will have 28 PCIe lanes, while Core i9 processors will have 44 PCIe lanes. This makes configuring an X299 motherboard a little difficult: see our piece on X299 to read up on why.

Right now the Core i9-7900X is the only Core i9 with any details: this is a ten core processor, running with a 3.3 GHz base, a 4.3 GHz turbo and a 4.5 GHz favored core. Like the last processor, it will support DDR4-2666 and has a TDP of 140W. At this level, Intel is now going to charge $100/core, so this 10-core part runs in at a $999 tray price ($1049 retail likely).

One brain cell to twitch when reading this specification is the price. For Ivy Bridge-E, the top SKU was $999 for six-cores. For Haswell-E, the top SKU was $999 for eight-cores. For Broadwell-E, we expected the top SKU for 10-cores to be $999, but Intel pushed the price up to $1721, due to the way the enterprise processors were priced. For Skylake-X, the new pricing scheme is somewhat scrapped again. This 10-core part is now $999, which is what we expected the Broadwell-E based Core i7-6950X to be. This isn’t the top SKU, but the pricing comes back down to reasonable levels.

Meanwhile for the initial launch of Skylake-X, it is worth noting that this 10-core CPU, the Core i9-7900X, will be the first one available to purch. More on that later.

Still covering the LCC core designs, the final processor in this stack is the Core i9-7920X. This processor will be coming out later in the year, likely during the summer, but it will be a 12-core processor on the same LGA2066 socket for $1199 (retail ~$1279), being part of the $100/core mantra. We are told that Intel is still validating the frequencies of this CPU to find a good balance of performance and power, although we understand that it might be 165W rather than 140W, as Intel’s pre-briefing explained that the whole X299 motherboard set should be ready to support 165W processors.

In the enterprise space, or at least in previous generations, Intel has always had that processor that consumed more power than the rest. This was usually called the ‘workstation’ processor, designed to be in a single or dual socket design but with a pumped up frequency and price to match. In order for Intel to provide this 12-core processor to customers, as the top end of the LCC silicon, it has to be performant, power efficient, and come in at reasonable yields. There’s a chance that not all the factors are in place yet, especially if they come out with a 12-core part that is clocked high and could potentially absorb some of their enterprise sales.

Given the expected timing and launch for this processor, as mentioned we were expecting mid-summer, that would have normally put the crosshairs into Intel’s annual IDF conference in mid-August, although that conference has now been canned. There are a few gaming events around that time to which Intel may decide to align the launch to.

Announcement Two: High Core Count Skylake-X Processors
Comments Locked


View All Comments

  • ddriver - Tuesday, May 30, 2017 - link

    They can do anything between 8 and 16 in the threadripper design, if the market should call for it.
  • ddriver - Tuesday, May 30, 2017 - link

    They have 4 6 and 8 core zen dies, but they gotta have some with 5 or 7 working cores. Those could be sold as 4 and 6 cores with one disable core, or they can be slapped on the same chip for 10 and 14 core products, no working cores wasted.
  • ilt24 - Thursday, June 1, 2017 - link

    ddriver..."They have 4 6 and 8 core zen dies"

    Actually AMD only have one 8 core Zen die. All of this years Ryzen 7/5/3 chips are made from that die they just disable cores to get the lower core counts. Threadripper is made from a pair of these die in an MCM package, with some cores disabled for some SKUs. The EPYC processor will be made from 4 of these die in a single package. If AMD for some reason wanted to match Intel's 18 cores they would need to make a three die MCM chip with 6 die disabled.
  • ddriver - Friday, June 2, 2017 - link

    "Cores" as in "active/working cores".

    I doubt they'll be making 3 die MCM solutions, that is too asymmetric. Also, they will be throwing I/O away, as the HEDT socket doesn't have the pins to facilitate it.

    It is unlikely that AMD will have a 18 core SKU in either HEDT or server. Threadripper will stop at 16. Epyc will start at 20, if the market calls for it. That's 4 modules with 5 active cores each. I doubt Amd will produce asymmetric designs. So that's 20, 24, 28 and 32 cores for Epyc. And half of that for threadripper - 10, 12, 14 and 16 cores.

    Lacking an 18 core solution is not a big whoop, and most certainly not worth the R&D money.
  • ilt24 - Friday, June 2, 2017 - link

    "I doubt they'll be making 3 die MCM solutions,"

    I agree, which was why I said "If AMD for some reason wanted..."

    "Epyc will start at 20"

    I think AMD will also have lower core count EPYC chips, as a good part of the market uses them. ...and a 16 core version made from a pair of die will cost them quite a bit less then a 20 core+ version made from 4 die.
  • XabanakFanatik - Tuesday, May 30, 2017 - link

    The reason the price jumps from 8 to 10 cores like that is you are paying from the 28 lane skus into the 44 lane skus along with the extra cores. Once there, you are only paying for the increased core count.
  • theuglyman0war - Thursday, June 8, 2017 - link

    that's a tuff sell... the 8 core's higher base clock and 44 lanes at $599 would had been the easy purchase. Now if threadripper 16c actually releases at the rumor $849 I can't see any silver lining for Intel except for 18 core bragging rights. the 10 core benchmarks would have to have some kind of threadripper 16 core beating magic to justify the $1000 price. All the 8 core skylake has to is embarrass the 1800x in benchmarks ( and it could had also done so if it just made that 8 core solution an i9 with 44 lanes )
    Not quite enough to be more awesome?
    The new larger L2 caching seems like a big wrench in the works where direct comparison might easily fall apart if AMD does not have equal advanced on threadripper that trumps infinity fabric woe?
    At the end of the day time for benchmarks and support for AVX 512 etc... will take some time? I ain't close to pulling a trigger till I C. ( tho I B really excited to C! )
  • jjj - Tuesday, May 30, 2017 - link

    Intel reacts to Ryzen and they leave room for AMD to do up to 2x better lol.
  • alamilla - Tuesday, May 30, 2017 - link

    Those prices are HILARIOUS.
    C'mon Intel
  • jjj - Tuesday, May 30, 2017 - link

    I expect the cheapest 16 cores Threadripper to allow users to fit the CPU plus mobo in 1k$ so 799$ for the CPU.

    Intel's play in recent years has been to push ASPs up and offset declining units but AMD has to find the balance between margins and share gains- Intel has no share left to gain. AMD doesn't have yield issues with MCM so they could easily go even lower than 799$ for 16 cores.
    What i am curious about is if AMD has any SKUs with less than 12 cores and how aggressive they get with those.
    And ofc let's see if AMD has a new revision for Ryzen.
    Doubt they launch Threadripper today, before Naples.

Log in

Don't have an account? Sign up now