Review Index:

The Intel Core i9-9980XE Review: Slight Iteration

Subject: Processors
Manufacturer: Intel


Shopping for a CPU in 2018 has been a bit of a moving target. Between the launch of AMD's Ryzen 2000 series processors in the beginning of the year, new AMD Threadripper X and WX-series products, and a consumer CPU refresh from Intel last month, it's been difficult to keep track of.

Now we are rounding out 2018 with new products for the last remaining platform that hasn't seen a refresh this year, Intel's Core X-series of processors, namely the Intel Core i9-9980XE.

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Join us, as we talk about Intel's new 9th-generation Core X-series processors, and the current landscape of HEDT desktop platforms.

  Core i9-9980XE Core i9-7980XE Threadripper 2990WX Threadripper 2970WX Threadripper 2950X Threadripper 2920X
Architecture Skylake-X Skylake-X Zen+ Zen+ Zen+ Zen+
Process Tech 14nm++ 14nm+ 12nm 12nm 12nm 12nm
Cores/Threads 18/36 18/36 32/64 24/48 16/32 12/24
Base Clock 3.0 GHz 2.6 GHz 3.0 GHz 3.0 GHz 3.5 GHz 3.5 GHz
Boost Clock 4.4 GHz 4.2 GHz 4.2 GHz 4.2 GHz 4.4 GHz 4.3 GHz
L3 Cache 24.75MB 24.75MB 64MB 64MB 32MB 32 MB
Memory Support DDR4-2666 (Quad-Channel) DDR4-2666 (Quad-Channel) DDR4-2933 (Quad-Channel) DDR4-2933 (Quad-Channel) DDR4-2933 (Quad-Channel) DDR4-2933 (Quad-Channel)
PCIe Lanes 44 44 64 64 64 64
TDP 165 Watts 165 Watts 250 Watts 250 Watts 180 Watts 180 Watts
Socket LGA-2066 LGA-2066 TR4 TR4 TR4 TR4
Price (MSRP) $1979 $1999 $1799 $1299 $899 $649

Click here to continue reading our review of the Intel Core i9-9980XE! 

With the relative specifications, all laid out, the changes between the Intel Core i9-7980XE and i9-9980XE seem few and far between.

With the move to the revised 14nm++ process technology that we first saw introduced on the desktop with the 6-core Intel i7-8700K last year, it seems Intel has been able to breathe a bit of additional life into what is the same Skylake-X architecture.

This improvement comes in the form of clock speed increases. The i9-9980XE manages a sizeable 400 MHz boost for the base clock, and a 200 MHz increase on the Turbo Boost 2.0 clock. The Turbo Boost 3.0 clock also sees a smaller 100 MHz increase.

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As we saw with the Intel Core i9-9900K last month, Intel is using the same Solder Thermal Interface Material (STIM) between the CPU die and the heat spreader. 

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There is a similar story across the entire 9th-generation Core X lineup, as seen above. In fact, all Core i9 CPUs have the same rated Turbo Boost clocks, pointing to a potential upper limit on the Skylake-X design on this process node.

The lowest end Core-X offering is now an 8-Core part instead of a 6-core part, providing parity with Intel's new consumer 9th-generation desktop processor lineup launched last month. 

Intel isn't introducing a new chipset alongside these CPUs, instead, the Core X CPUs will continue to use the same LGA 2066 socket, on the same X299 chipset. In fact, most motherboards have actually had the firmware update to support these new CPUs for quite a bit.

Review Terms and Disclosure
All Information as of the Date of Publication
How product was obtained: The product is on loan from Intel for the purpose of this review.
What happens to the product after review: The product remains the property of Intel but is on extended loan for future testing and product comparisons.
Company involvement: Intel had no control over the content of the review and was not consulted prior to publication.
PC Perspective Compensation: Neither PC Perspective nor any of its staff were paid or compensated in any way by Intel for this review.
Advertising Disclosure: Intel has not purchased advertising at PC Perspective during the past twelve months.
Affiliate links: This article contains affiliate links to online retailers. PC Perspective may receive compensation for purchases through those links.

November 13, 2018 | 10:53 AM - Posted by Anonymously Anonymous (not verified)

GN shows that the 7980xe has higher OC headroom with delidding, but straight out of the box the 9980xe is only SLIGHTLY better in a couple of workloads, but otherwise the only significant change is literally in the name of the product, changed the 7 to a 9 and kept the same price.

November 13, 2018 | 10:58 AM - Posted by Brother Michigan (not verified)

That increase in power consumption over the 7980XE looks a bit suspect.

November 13, 2018 | 12:52 PM - Posted by Ken Addison

I agree. I tested both of the CPUs again this morning to verify the numbers before publishing the review though!

November 13, 2018 | 01:14 PM - Posted by Brother Michigan (not verified)

Crazy. Maybe a bum sample?

November 14, 2018 | 08:26 AM - Posted by Anonymous0 (not verified)

I don't find it that hard to believe - this is what, a hybrid of the 2nd and 4th Tick in Intel's cadence? They are hitting 14nm for every last drop of performance, so power usage can only increase.

November 13, 2018 | 01:19 PM - Posted by ShortagesofIntelPartsAtAboveMSRPandPlentyOfAMDPartsBelowMSRP (not verified)

I would not leave the first generation Threadripper 1950X results out of the lineup as the Price/Performance metric on first generation Threadripper is even greater now with first generation TR SKUs selling for well below their introductory MSRPs.

Also Price/performance wise there are for workstation type milti-core workloads the 16 core Epyc/Naples Dual Socket CPU SKUs with the Epyc 7301 selling online around $850-$950 range(Online). So that's 2, Epyc 7301s for around $1700(at current deal pricing) and dual socket Epyc/Sp3 low end MBs are running $450-$650 range for dual socket Epyc/SP3 motherboards with 16(8 memory channels per socket) total memory channels at 1 DDR4 DIMM slot per memory channel and 128 total PCIe lanes. So for memory bandwidth hungry workloads 2, 16 core Epyc CPUs and 16 full channels of memory bandwidth across 2 scokets. It all depends on if you need Epyc/SP3 and Motherboards that actually tested vetted/certified for ECC Memory usage for your workloads.

I'll bet first the generation Epyc/Naples deals are going to get better also by mid 2019 as the Epyc/Rome SKUs begin to arrive for online purchase.

It all depends on your workload requirements and that Intel HEDT part has higher CPU and memory clocks relative to the Xeon/Epyc(More Memory Channels) parts but with less total effective memory bandwidth with the i9-9980XE only Quad channel but not supporting ECC memory. And even the Threadripper/x399 MBs not really vetted/certified to support ECC Memory even though ECC memory can work on some TR motherboards.

The AMD Ryzen-1/TR-2 SKUs appear to be on sale pretty often below MSRP while all the first generation Ryzen/TR parts are always selling below MSRP. What little stocks of i9-9980XE SKUs that can be found online are selling at above $2000 currently. The Epyc/Naples lower core count CPU SKUs can be doubled up on dual socket Motherboards that offer and still offer 32 cores and even 16 total memory channels for some crazy good total effective memory bandwidth. And if you are pricing ECC memory then is possible to save if your MB supports 16 memory channels by populating the memory channels with the lower cost low capacity 4GB/8GB ECC DIMMS ad still have 64GB-128GB of total available ECC memory.

November 13, 2018 | 02:56 PM - Posted by Prodeous

That power consumption.

Wow.. AMD TR 2990W in highly multithreaded benchmarks (blender, Cinema4d, etc) is out doing Intels top at similar power.

When was the last time one could say that about Intel vs AMD.

Can't wait to see what Zen2 delivers. Intel really needs to step up the game with the next release.

November 13, 2018 | 04:31 PM - Posted by elites2012

1. not a chip i would recommend at all. 2. more cores for more real multi-thread , multitasking workload. these reviews keep leaving out true multitasking workloads. no one does one thing at a time on a mutlicore workstation pc or even a consumer level chip. 3. the benchmarks mostly favor intel, cause they are written with intel in mind. have not see many benchmark apps say they have updates for the ryzen/threadripper family of chips. 4. i say this again and over and over. who is using an app that uses single threads? so why do they keep putting single thread benchmarks in these reviews? WE KNOW intel is king of single thread. but why shine a light on that and we have multithreaded chips. here is another bias review. even when you end it with "the Intel Core i9-9980XE might be your best bet—if your budget allows" if the chip lost to cheaper, higher core chips?

November 13, 2018 | 05:46 PM - Posted by loophole (not verified)

tl;dr -> Why is the Threadripper 2920X putting in a higher score for Geekbench single thread than the 2950X?


The Geekbench single threaded benchmark stands out to me as a little odd: the Threadripper 2920X gives a result ~9.6% higher than the 2950X (4957 vs 4521). I wouldn't have expected this given that the 2950X has a 100MHz higher boost clock.

Another interesting, although less dramatic, data point is the Cinebench R15 single threaded scores: the Threadripper 2920X gives a result ~2.3% higher than the 2950X (176 vs 172).

Does anyone have any idea as to what could be causing this?

November 15, 2018 | 04:53 PM - Posted by James

The achieved IPC is generally more dependent on memory access performance than actual execution core performance. The execution core can generally execute ridiculously large numbers of instructions in parallel with out of order execution and multiple execution units. They often achieve an IPC or less than 1 even though they could execute something like 6 or 8 instructions per clock. This is why we have SMT. The core can execute instructions from another thread while waiting on L3 accesses. Intel has always been very good at cache design which directly effects single thread performance. The caching systems are probably much more complex than the cores these days.

I don’t know what causes the difference between the two Threadripper processors. The 2950 is a full 16 core chip with 4 cores per CCX. The 2920 is 3 cores per CCX. The only thing I can think of is that the 2920 has 8 MB of L3 for 3 cores while the 2950 has 8 MB for 4 cores. The other cores are not necessarily idle. They could be running OS and driver threads even if the only application running is single threaded.

November 16, 2018 | 02:00 PM - Posted by loophole (not verified)

Larger per-core L3 cache on the 2920X may be something. That said, the result that the 2700X put in for Geekbench's single threaded test doesn't jive with that hypothesis - it has the same 2MB of L3 cache per core as the 2950X and it scores just a little lower than the 2920X with 4885.

If we were seeing an impact from background kernel and driver threads things would be even worse with all those threads having to be spread over "only" 8 hardware threads for the 2700X, right?

I like it though, keep 'em coming :)

November 16, 2018 | 04:19 PM - Posted by James

Lots of wierd things can happen in a multi-threaded, multi-core situation. Threadripper is a NUMA system while the 2700x is not. If the OS does something such that memory is being accessed from a non-local NUMA node, that could cause lower performance. It could be higher performance to have the OS threads on the same CCX as the application or it could be lower. It depends on the memory access patterns. Getting consistent results from a NUMA system is much harder than a UMA system. Windows seems to be particularly bad at scheduling in Zen. I read some performance testing with some compression applications on phoronix. Windows server versions seem to be particularly bad. I am actually wondering if it is applying intel meltdown patches to amd systems, which is unnecessary.

November 13, 2018 | 06:50 PM - Posted by ipkh

I'm more interested in the 9900X 10 core. I'm running 6 cores now for the 40 pcie lanes. Plex, folding and video encoding with a smattering of gaming. Those slightly lower core count but faster frequency seem to do well in that arena.

November 14, 2018 | 02:46 AM - Posted by Hakuren

Yeah me too. I wonder how enhanced cache (vs 9820K) will affect the performance. Will wait and see. My workload doesn't benefit much from multitude of cores, but it benefits much from Intel architecture. Serious bummer for me is lack of Thunderbolt3 support on AMD platform.

November 15, 2018 | 07:59 PM - Posted by James

I am curious as to what the ramdisk test is actually testing. This seems like it is really a memory bandwidth test. I have been trying to figure out the memory controller configuration in Zen 1 and Zen 2. In Zen 1, the IFOP (on package links) are 32-bit but run at 4x base clock. That allows 128-bit per clock. The packet size is also 128-bit. A single channel memory controller is 64-bit, but since it is DDR, it transfers twice each clock for 128-bits per clock. The IFIS (inter-socket, off package links) are 16-bit, but they run at 8x base clock for also about 128-bit per base clock. Serdes has some encoding overhead, so both would be a bit less. DDR interfaces aren’t 100% efficient either, so it may map very well. This seems to imply that any one core is essentially limited to the bandwidth of a single memory channel, which might be what you are seeing in the ramdisk benchmark you are running.

For Zen 2, they need a lot more bandwidth per core to support double the AVX throughout. The clock speeds of the serdes links may be doubled with pci-e 4.0 physical layer. The memory clock is not doubled, so to maintain bandwidth, they would need to stripe across two memory channels instead of just one. On Intel chips, they may stripe across 4 memory channels, which may be why you see the results with the ramdisk. For intel server chips, they may be able to stripe across all 6 channels, but I don’t know if that is necessary or a good thing for all cases. The actual flops of a Zen 2 is actually close to an Intel server part with 2x 512-bit AVX units. Zen 2 seems to have 4 256-bit units instead. We don’t know if these are 2 add and 2 multiply. If they have the space on Zen 2 at 7 nm, they may be able to have all 4 do multiply and add.

November 23, 2018 | 06:58 AM - Posted by redturtle984 (not verified)

To me being able to obtain such stellar performance at an obtainable albeit premium price is hands down worth it. AMD has its own niche and can run with the big dogs all by itself but this new processor I just ordered as part of a general purpose gaming/rendering/research rig (with two RTD 2080 TI Blower edition cards) puts computing power on my desktop unimaginable just a few years ago under five figures. I personally do not own a car so have money normally spent on such a thing to use for technology.

This is the trade off I make to adopt the best tech I can get without selling my soul and my own daughter into slavery. ????

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