The EVGA X299 FTW K is our first X299 motherboard from EVGA. The FTW K aims to bring users a solid power delivery, three-way multi-GPU capabilities, two M.2 slots, and a unique feature so far on our X299 coverage: two U.2 ports. The X299 FTW K looks to fit into the crowded mid-range segment for X299 motherboards at its price point. We will put it on the test bed and gave it a thorough inspection.

EVGA is a bit unique when it comes to their motherboard product stack. Unlike the four major motherboard companies that have almost a dozen options apiece, EVGA usually has only three boards in the market for a given chipset. This time around, the EVGA boards consist of the X299 Micro (a MicroATX offering), the X299 FTW K (this review), and the X299 Dark (a flagship X299). While a 'gaming' or 'professional' designation is missing, the fundamental requirements for a good X299 board are still the same. The X299 FTW K attempts to hit the mainstream of X299 users, without going above and beyond like the Dark or for small-form-factor builds like the Micro.

EVGA X299 FTW K Overview

One of the more unique items to crop up in our X299 coverage comes from the X299 FTW K: here there are the two U.2 ports on the board. Only a select handful of X299 motherboards on the market have one, let alone two. Not that it is a hugely popular item, but if you are looking for the performance of the top M.2 PCIe x4 NVMe based drives without the potential hassle of cooling them, U.2 and standard sized drives may be your answer. Be aware that in order to use both the U.2 ports, a 44-lane CPU (a Core i7-7900X or higher) is required. 

Regarding storage options on the X299 FTW K, aside from the dual U.2 ports, there are also eight SATA ports and two M.2 slots. One of the M.2 slots is directly connected to the CPU while the other sources its lanes through the chipset. The board supports up to 3-way SLI and 3-way Crossfire using three of its four full-length slots, despite supporting x8/x8/x8/x8 which would allow 4-way with single-slot or thin liquid cooled GPUs. With it being called the 'FTW K', the K in this case stands for Killer, and one of the gigabit Ethernet ports is powered by an E2500 controller.

Our performance results for the FTW K were mostly found to be average with it doing very well in power use.  From long idle power testing to our load testing, it used less power than all of the previous X299 boards tested so far because the load voltage was a low, due to the CPU dropping to its base clocks to run. This motherboard, with the latest BIOS we used for testing, automatically applies an AVX offset of -300 MHz no matter if the cores are set to Auto or either of the manual overclocking options. Because of this, and no other board we've tested so far behaves this way, we see a lower power use stock settings. Outside of this, the rest of the results have the FTW K an average performer sitting in the middle of the pack in most other tests. For overclocking, we managed to hit 4.5 GHz on our i9-7900X and ran into our temperature limit. The voltage required to reach this clock speed was on par with the other boards. 

Manual overclocking results

The EVGA X299 FTW K is currently priced at $330 on Newegg US. This places the board, by price, squarely in the crosshairs of other boards like the MSI X299 Gaming Pro Carbon AC at $330, the ASRock X299 Taichi XE at $323, and the Gigabyte X299 AORUS Ultra Gaming Pro at $350. There is a lot of competition around this price range so it will come down to included features and use to pick between them. 

EVGA X299 Strategy

EVGA's X299 strategy has three motherboards, competing against the other major manufacturers that have 10 or more boards filling out many of the niches of the market. 

EVGA's X299 Motherboard Lineup (11/28)
Amazon Newegg
X299 Dark requested - -
X299 FTW K this review - $330
X299 Micro upcoming $290 $290

The least expensive board is the X299 Micro which as its name implies, is a MicroATX size motherboard. Next up the stack is the product we are reviewing here in the FTW-K. This board will compete with other mid-range offerings through its feature set and price. Finally, the flagship of the EVGA X299 stack is the X299 Dark which will match up with other board partner's flagship offerings. 

Information on Intel's X299 and our other Reviews

With Intel's release of the Basin Falls platform, encompassing the new X299 chipset and LGA2066 socket, a new generation of CPUs called Skylake-X and Kaby Lake-X were also released. The Skylake-X CPUs range from the 7800X, a hex-core part, all the way up to an 18-core 7980XE multitasking behemoth. Between the bookend CPUs are five others increasing in core count, as in the table below. The latter HCC models are set to be launched over 2H of 2017.

Skylake-X Processors
  7800X 7820X 7900X   7920X 7940X 7960X 7980XE
Silicon LCC   HCC
Cores / Threads 6/12 8/16 10/20   12/24 14/28 16/32 18/36
Base Clock / GHz 3.5 3.6 3.3   2.9 3.1 2.8 2.6
Turbo Clock / GHz 4.0 4.3 4.3   4.3 4.3 4.3 4.2
Turbo Max Clock N/A 4.5 4.5   4.4 4.4 4.4 4.4
L3 1.375 MB/core   1.375 MB/core
PCIe Lanes 28 44   44
Memory Channels 4   4
Memory Freq DDR4 2400 2666   2666
TDP 140W   140W 165W
Price $389 $599 $999   $1199 $1399 $1699 $1999

Board partners have launched dozens of motherboards on this platform already, several of which we will have an opportunity to look over in the coming weeks and months. This specific review will cover the MSI X299 SLI Plus.

Other AnandTech Reviews for Intel’s Basin Falls CPUs and X299

Prices checked Jan 25th

  • The Intel Skylake-X Review: Core i9-7980XE and Core i9-7960X Tested
  • The Intel Skylake-X Review: Core i9-7900X, i7-7820X and i7-7800X Tested
  • The Intel Kaby Lake-X Review: Core i7-7740X and i5-7640X Tested
  • Intel Announces Basin Falls: The New High-End Desktop Platform and X299 Chipset
  • ($400) The ASRock X299E-ITX/ac Review [link
  • ($400) The GIGABYTE X299 Gaming 7 Pro Review [link]
  • ($390) The ASRock X299 Professional Gaming i9 Review [link
  • ($370) The ASUS Strix X299-XE Gaming Review [link
  • ($350) The MSI X299 Gaming Pro Carbon Review [link
  • ($340) The ASUS X299 TUF Mark 1 Review [link
  • ($330) The EVGA X299 FTW-K Review (this review)
  • ($290) The ASRock X299 Taichi Review [link]
  • ($280) The MSI X299 Tomahawk Arctic Review [link]
  • ($260) The MSI X299 SLI Plus Review [link]
  • ($500) The GIGABYTE X299 Gaming 9 Review (planned) 
  • ($490) The ASUS Prime X299-Deluxe Review (testing)
  • ($290) The EVGA X299 Micro Review (in editing)
  • ($286) The MSI X299M Gaming Pro Carbon AC Review (testing)
  • ($199) The ASRock X299 Extreme4 Review (testing)
  • ($?) The EVGA X299 Dark (planned)

To read specifically about the X299 chip/platform and the specifications therein, our deep dive into what it is can be found at this link.

X299 Motherboard Review Notice

If you’ve been following the minutiae of the saga of X299 motherboards, you might have heard some issues regarding power delivery, overclocking, and the ability to cool these processors down given the power consumption. In a nutshell, it comes down to this:

  • Skylake-X consumes a lot of power at peak (150W+),
  • The thermal interface inside the CPU doesn’t do much requiring a powerful CPU cooler,
  • Some motherboard vendors apply Multi-Core Turbo which raises the power consumption and voltage, exacerbating the issue
  • The VRMs have to deal with more power, and due to losses, raise in temperature
  • Some motherboards do not have sufficient VRM cooling without an active cooler
  • This causes the CPU to declock or hit thermal power states as to not degrade components
  • This causes a performance drop, and overclocked systems are affected even more than usual

There has been some excellent work done by Igor Wallossek over at Tom’s Hardware, with thermal probes, thermal cameras, and performance analysis. The bottom line is that motherboard vendors need to be careful when it comes to default settings (if MCT is enabled by default) and provide sufficient VRM cooling in all scenarios – either larger and heavier heatsinks or moving back to active cooling.

This means there are going to be some X299 boards that perform normally, and some that underperform based on BIOS versions or design decisions. We are in the process of quantifying exactly how to represent this outside of basic benchmarking, so stay tuned. In the meantime, take a look at the next motherboard for review. 

Visual Inspection
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  • EricZBA - Monday, January 29, 2018 - link

    1. It would have been nice to get an explanation in the first page of what the heck a U.2 port is
    2. Motherboard / CPU are swapped in the "Manual overclocking results" graph on page 1
  • Joe Shields - Monday, January 29, 2018 - link


    Sorry about that. Here you go:

    Thanks for the correction on the results.
  • JackNSally - Monday, January 29, 2018 - link

    Can you test with a better CPU cooler? All of your X299 overclocking results are thermally limited. This doesn't show the board limits, just the coolers limits.
  • Joe Shields - Monday, January 29, 2018 - link

    I see what you are saying. Do understand however, in the vast majority of cases, users will be thermally limited by the CPU before the board regardless.

    The problem comes with how effective, or not, adding more radiator really is considering how effective the interior TIM is. The test CPU (the new one) was still thermally limited with a 3x120 custom loop (CPU only) and a better block (Kryos NEXT). IIRC, I was able to run around 100 more MHz out of that than the Corsair AIO used in the test system. In order to reap those benefits fully, we would need to delid the CPU and go a lot bigger on the radiator before most boards would stop the overclock. With delidding, we are really getting into a world where not many users would do it unless they are benching competitively which these would not be the weapon of choice in the first place. These are '24/7' overclocks with reasonable cooling solutions and warrantied CPUs.
  • bug77 - Tuesday, January 30, 2018 - link

    Maybe add a paragraph summarizing all that to reviews, then?
  • oRAirwolf - Tuesday, January 30, 2018 - link

    USB type C motherboard headers should be standard equipment by now. I don't know why they would put 2 U.2 connectors on this motherboard but not a single USB type C header.

    My last motherboard was an EVGA x99 FTW K and it was a really nice motherboard. I liked the layout and the 2 slot spacing between GPUs. I am using an asrock z370 professional gaming i7 now and it only has single slot spacing between GPUs. There was definitely a noticeable increase in temperature going from 2 slot spacing to 1 slot spacing with SLI 1080 TI's. About 5-10 C. My only complaint with the x99 FTW K, besides using Killer networking, was that EVGA basically makes no motherboard software. While it doesn't see a lot of use, I like having utilities like fan curve and overclocking control. I know I can use things like speed fan and Intel extreme tuning utility...and I did, however, I was a bit let down by EVGAs lack of in house software.
  • Xajel - Tuesday, January 30, 2018 - link

    U.2 is crap, while it's good for NVMe 2.5" SSD drives (well, it's the only solution now). but I really hate how bulky it is, and the fact that the drive still need dedicated power pins.

    For any new technology for 2.5" & 3.5" SSD's ( SATA or NVMe ) I wish the cable to be small, compact, not so thick or hard cables, preferably reversible and can carry a minimum amount of power so a regular SSD can be powered also by the same cable. any more advance drive can have a separate power.
  • Drazick - Tuesday, January 30, 2018 - link

    At last real support for 2.5" drives with NVME.
    The M.2 solution is good for laptops.
    For desktop we need something better with less heat issues.
  • drajitshnew - Tuesday, January 30, 2018 - link

    Hi, could you please highlight the point at which an extra long screw is required. Also, list the specification of the required screw.
    Also , from the photographs is seems that the heat pipe from the power delivery is impinging on the 1 st memory slot. Could add a photo to clarify that?
  • drajitshnew - Tuesday, January 30, 2018 - link

    hi, it seems with the listed config for the 44 lane CPU it requires 60 lanes?!
    x16/x8/x8/x16=48 lanes and m2=4+ 2*U2=8, Could you clarify that?

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