The AMD Threadripper 2 CPU Review: The 24-Core 2970WX and 12-Core 2920X Tested
by Ian Cutress on October 29, 2018 9:00 AM ESTTest Bed and Setup
As per our processor testing policy, we take a premium category motherboard suitable for the socket, and equip the system with a suitable amount of memory running at the manufacturer's maximum supported frequency. This is also typically run at JEDEC subtimings where possible. It is noted that some users are not keen on this policy, stating that sometimes the maximum supported frequency is quite low, or faster memory is available at a similar price, or that the JEDEC speeds can be prohibitive for performance. While these comments make sense, ultimately very few users apply memory profiles (either XMP or other) as they require interaction with the BIOS, and most users will fall back on JEDEC supported speeds - this includes home users as well as industry who might want to shave off a cent or two from the cost or stay within the margins set by the manufacturer. Where possible, we will extend out testing to include faster memory modules either at the same time as the review or a later date.
Test Setup | |||||
AMD TR4 | TR2 2970WX TR2 2920X |
ASUS ROG X399 Zenith |
1501 | Enermax Liqtech TR4 |
Corsair Vengeance RGB Pro 4x8GB DDR4-2933 |
TR2 2990WX TR2 2950X |
ASUS ROG X399 Zenith |
0508 | Enermax Liqtech TR4 |
G.Skill FlareX 4x8GB DDR4-2933 |
|
TR 1950X TR 1920X |
ASUS ROG X399 Zenith |
0508 | Enermax | G.Skill FlareX 4x8GB DDR4-2666 |
|
TR 1900X | ASUS X399-A Prime |
0407 | Enermax Liqtech TR4 |
Crucial Ballistix 4x4GB DDR4-2666 |
|
AMD EPYC | EPYC 7601 | GIGABYTE MZ31-AR0 |
F07 | Gamerstorm Fryzen |
Micron LRDIMM 8x128GB DDR4-2666 |
AMD 2000 | R7 2700X | ASRock X370 Gaming K4 |
P4.80 | Wraith Max* | G.Skill SniperX 2x8 GB DDR4-2933 |
Intel HEDT | i9-7980XE i9-7960X i9-7940X i9-7920X i9-7900X i7-7820X i7-7800X |
ASRock X299 OC Formula |
P1.40 | TRUE Copper |
Crucial Ballistix 4x4GB DDR4-2666 |
Intel 9th Gen | i9-9900K | ASRock Z370 Gaming i7 |
P1.70 | TRUE Copper |
Crucial Ballistix 4x4GB DDR4-2666 |
GPU | Sapphire RX 460 2GB (CPU Tests) MSI GTX 1080 Gaming 8G (Gaming Tests) |
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PSU | Corsair AX860i Corsair AX1200i |
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SSD | Crucial MX200 1TB | ||||
OS | Windows 10 x64 RS3 1709 Spectre and Meltdown Patched |
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*VRM Supplimented with SST-FHP141-VF 173 CFM fans |
All of AMD’s Threadripper 2 processors are unlocked, allowing users to push the frequency and voltage higher for extra performance. Due to time constraints, we will hopefully examine this in a later review.
Many thanks to...
We must thank the following companies for kindly providing hardware for our multiple test beds. Some of this hardware is not in this test bed specifically, but is used in other testing.
69 Comments
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lilmoe - Monday, October 29, 2018 - link
Instead of all the 10+ pages of gaming benchmarks and client side javascript for a platform that most probably won't be used solely for gaming or casual content works, wouldn't it be better to have a suit of server side based benchmarks that are more server oriented? These platforms are becoming very attractive for development and testing of server side applications:- gzip
- pdf conversion
- database transactions
- modern web services
- node.js
etc, etc...
I really see no real value in gaming benchmarks. Not for this platform.
mapesdhs - Monday, October 29, 2018 - link
You might not see the value, but your desire does not reflect that of others, and there's no harm in the data points. You're right though that server side testing would be good, but is this site really the right place for that kind of testing? And from what I've read in the past it can be rather more complicated to run those kinds of tests. AT has a wide audience; they have to think more broadly about to whom they can or should appeal.Howeverm you're wrong in one regard, the cost of the 12-core inparticular to me looks like a rather nice alternative for those wanting decent gaming performance at 1440p or higher, but also good productivity potential. Given its cost, seems like an ideal streaming/gaming/productivity all-rounder to me.
DominionSeraph - Monday, October 29, 2018 - link
i9 9900k would be a better choice. It splits the heavily multithreaded benchmarks with the 12 core, is $160 cheaper for the CPU, and doesn't require a $400 motherboard.eva02langley - Tuesday, October 30, 2018 - link
Techspot takes.''We didn’t have time to retest the Core i9-7900X, but I can assure you with the data we have on hand the 2920X also dominates that part as well, mostly because the 10-core Intel CPU costs over 40% more. That just leaves the 9900K, and honestly, if productivity tasks are the focus then we believe the 2920X is the smarter buy. It will end up costing a little more overall but for applications that utilize the 12-core Threadripper CPU well, a heavily overclocked 9900K will melt trying to keep up.''
TheinsanegamerN - Tuesday, October 30, 2018 - link
The i9 9900k would spend its time melting down under water cooling attempting to keep up, while costing more after the cooling solution then threadripper costs.Icehawk - Monday, October 29, 2018 - link
Please provide your full Handbrake settings (IMO it should be linked in the article), you get about 3x faster encoding than I do at “Fast, Main, 3500kbs”. I’d love to triple my throughput.mapesdhs - Monday, October 29, 2018 - link
It's amazing how some options in Handbrake can cut performane in half. I've been meddling with it a lot today, certain filters can really slow things down.rony_ph - Monday, October 29, 2018 - link
Hello,With all these threadripper tests, how come we never see any reference or use case scenarios for Virtualization. Those CPUs with with this amount of cores, can easily be used to host multiple VMs, etc... yet all the testing is mainly on Office Apps, Gaming and 3D but never on virtualization and the advantage of having such a CPU would do for these scenarios... I'm certain that there are tons of people using those chips to run VMware & Hyper-V, etc...
schujj07 - Monday, October 29, 2018 - link
You wouldn't use these for VMware or Hyper-V to run mission critical VMs. You might use VMware Workstation with them to run Sandbox systems.rony_ph - Monday, October 29, 2018 - link
Never mentioned mission critical systems. As hone or power user. A cpu like 2990w or 2970w will easily let you have 60+ vms running in parallel to do your own testing and lab environment. While buying an equivalent from intel for same price range (not talking about Xeon) wont let u make half as much VMs. You can even probably run an azure stack on it for testing purposes. So the use of such a CPU is huge for an IT Pro for instance.