During Computex 2019, AMD's CEO Dr Lisa Su introduced the company's newest AM4 platform chipset, the X570. Designed to support the new AMD Ryzen 3000 series processors, X570 is just as big of an update as the new Zen 2 architecture is. On paper, it has a lot of talking points: the new PCIe 4.0 interface, the 11 W operating TDP, and more USB 3.1 G2 connectivity for vendors to work with. In this article, we'll be analysing all of the available X570 motherboards we could find.

The AMD X570 Chipset Overview: PCIe 4.0 is Here

Among the biggest additions to AMD’s AM4 platform is the introduction of PCIe 4.0 support, courtesy of the new X570 chipset. X570 marks the first consumer motherboard chipset to feature native PCIe 4.0 – which can double the bandwidth available for everything from SSDs to video cards, offering the opportunity to improve performance when these peripherals get bus-bottlenecked.

Better still, PCIe 4.0 isn't just a feature of the X570 chipset; the Ryzen 3000 series also support PCIe 4.0 for the integrated PCIe lanes that the CPUs are directly hosting, thanks to the I/O die at the heart of each chip. As a result, the X570 chipset and Ryzen 3000 even use PCIe 4.0 to talk to each other, with that link consuming 4 dedicated lanes from each chip.

Directly comparing AMD's trio of AM4 X-series chipsets, the X570 chipset naturally adds the aforementioned PCIe 4.0 lane support, an improvement over the predecessors’ X470 and X370's last-gen PCIe 3.0 standard.

Another big plus to the new X570 chipset is more support for USB 3.1 Gen2, as well as AMD allowing motherboard manufacturers to play with 12 flexible PCIe 4.0 lanes (Out of the total of 24; 4x for CPU, 8x fixed for PCIe) to implement features how they wish. With the flexible I/O lanes, vendors can add features such as SATA ports, PCIe 4.0 x1 slots, or even 3 more PCIe 4.0 NVMe M.2 slots.

AMD X570, X470 and X370 Chipset Comparison
Feature X570 X470 X370
PCIe Interface (to peripherals) 4.0 2.0 2.0
Max PCH PCIe Lanes 24 24 24
USB 3.1 Gen2 8 2 2
Max USB 3.1 (Gen2/Gen1) 8/4 2/6 2/6
DDR4 Support 3200 2933 2667
Max SATA Ports 8 8 8
PCIe GPU Config x16
x8/x8
x8/x8+x8*
x16
x8/x8
x8/x8+x4
x16
x8/x8
x8/x8+x4
Memory Channels (Dual) 2/2 2/2 2/2
Integrated 802.11ac WiFi MAC N N N
Chipset TDP 11W 4.8W 6.8W
Overclocking Support Y Y Y
XFR2/PB2 Support Y Y N

One of the biggest changes in the chipset is within its architecture. The X570 chipset is the first Ryzen chipset to be manufactured and designed in-house by AMD, with some helping ASMedia IP blocks. Previously, with the X470 and X370 chipsets, those chipsets were directly developed and produced by ASMedia, with the company building them on a 55nm process.

Meanwhile, we've also seen chipset TDPs rise and fall over the generations. The X370 started things off at 6.8 W, and X470 improved upon things to bring the chipset TDP down to 4.8 W. However for X570, thanks to the high power costs of PCIe 4.0 the TDP of the chipset has gone back up, and significantly so; even the lower-power version of the chip still has an 11 W TDP.

As a result of the increased power consumption of the X570 chipset, better chipset cooling is required. All but one of the motherboards launching in this first round of products are featuring an actively cooled chipset heatsink. While it is expected that AMD will be working on improving their chipset TDP for future generations, for now the increased power has forced manufacturers to implement more premium and more effective ways of keeping the X570 chipset and various other motherboard components cooler.

Tagential to the X570 chipset itself, this new generation of motherboards have forced vendors to keep a closer eye on their power delivery designs and to make sure that they’re following AMD’s new specification for the 105TDP class chips which require current delivery of up to and above 140A. Notably motherboard vendors have said that the upcoming 16-core Ryzen 9 3950X was the baseline for which the new VRM designs were validated against. In particular, this means using better heatsinks so that the MOSFETs themselves can keep their collective cool.

Finally, while more a product of the Ryzen 3000 CPU itself, memory support has also been improved thanks to a better IMC on the Ryzen 3000. Thanks to this supported frequency boost, some motherboard vendors are advertising speeds of up to DDR4-4400, which were unheard of for an AMD processor until now. Even base frequencies have improved for the X570/Ryzen3000 platform, as the maximum officially supported memory frequency has now increased to DDR4-3200, up from DDR4-2933 on X470/Ryzen2000, and DDR4-2667 on X370/Ryzen1000.

We investigated in our Ryzen 7 Memory Scaling piece back in 2017, we found out that the Infinity Fabric Interconnect scales well with frequency, and it is something that we will be analysing once again when we get the initial launch of the Ryzen 3000 series and X570 motherboards out of the way, and potentially allow vendors to work and improve on their early launch firmware versions for AMD's new 7nm silicon.

The Current X570 Product Stack: 35+ New Motherboards Announced

With the importance of the Ryzen 3000 product launch for AMD underscoring the large potential of the new CPU, motherboard manufacturers have been lining up masses of X570 boards, all with the aim in offering users differentiating configurations in terms of connectivity, components, as well as price points.

Below is the current X570 product stack announced for launch, including models from all the usual suspects: ASRock, ASUS, GIGABYTE, and MSI, as well as solitary additions from Biostar with its X570 GT8 Racing, and Colorful with its iGame X570 CVN Gaming Pro V14 model. It is expected that even more boards will be introduced in the future, as motherboard vendors gain experience and feedback with their first round of boards.

ASRock:

A total of 10 new boards, with a mixture of gaming-focused boards including the Phantom Gaming series, as well as the X570 Creator – which is as the name says, aimed at professionals and content creators. The Taichi makes a comeback, and it's rumoured that a higher end X570 Taichi Ultimate will make an appearance before the end of the year. ASRock also has rear panel Thunderbolt 3 on a couple of boards, which some users will appreciate.

ASUS:

The largest X570 product stack with 12 new models. However the large number is a bit overstating things, since it comes as a consequence of ASUS offering both Wi-Fi and non-Wi-Fi versions of some of its boards. The new Crosshair VIII models dominate the high-end segment, while the small form factor Impact series makes its highly anticipated comeback after a couple of years. In the mid-range, there are the ROG Strix gaming branded models, while the Pro WS X570-Ace caters to workstations. Users looking for models without an overly aggressive gaming theme will find the ASUS Prime more their style, while the entry-level TUF Gaming brand also makes an appearance.

Biostar:

Just one board for the launch of the X570 chipset: the X570 Racing GT8. This is an ATX model, and we've been told that Biostar will be releasing a mini-ITX model (most likely the X570GTN) in the coming months.

Colorful:

Just one model for launch day. Colorful or iGame are mainly sold in the Asian markets, so we don't expect them to be available in the western world anytime soon.

GIGABYTE:

9 boards, with a varied range stretching from the highly-equipped flagship X570 Aorus Xtreme, all the way down to the X570 Gaming X. GIGABYTE is one of just three vendors (along with ASRock & ASUS) who has a mini-ITX model.

MSI:

The smallest X570 product stack from the big four vendors with a total of 7 new boards. This is partially because unlike some of the other vendors, MSI isn't releasing dueling Wi-Fi/non-WI-Fi versions of the same boards; instead either a board includes Wi-Fi 6 as a standard feature or no Wi-Fi at all. MSI also has the board with the most impressive accessory bundle, with the X570 Godlike including a 10 GigE NIC in addition to its 2.5 GigE NIC on the rear panel. It's nice to see MSI going better than Gigabit when compared with X470.

X570 Motherboards Available at Launch (07/07)
Model Size Price
(Amazon)
Price
(Newegg)
ASRock X570 Aqua E-ATX - -
ASRock X570 Taichi ATX $339 $300
ASRock X570 Creator ATX - -
ASRock X570 Phantom Gaming X ATX - $350
ASRock X570 Phantom Gaming 4 ATX - $155
ASRock X570 Phantom Gaming-ITX TB3 mITX - -
ASRock X570 Steel Legend ATX $260 $200
ASRock X570 Extreme4 ATX - $240
ASRock X570 Pro4 ATX - $170
ASRock X570M Pro4 mATX - $186
       
ASUS ROG Crosshair VIII Formula ATX $700 $700
ASUS ROG Crosshair VIII Hero WIFI ATX - $380
ASUS ROG Crosshair VIII Hero ATX - $360
ASUS ROG Crosshair VIII Impact mDTX - -
ASUS ROG Strix X570-E Gaming ATX $330 $330
ASUS ROG Strix X570-F Gaming ATX - $300
ASUS ROG Strix X570-I Gaming mITX - -
ASUS TUF Gaming X570-Plus WIFI ATX $200 $200
ASUS TUF Gaming X570-Plus ATX $190 $190
ASUS Pro WS X570-Ace ATX $380 $380
ASUS Prime X570-Pro ATX $250 $250
ASUS Prime X570-P ATX $170 $170
       
Biostar X570 Racing GT8 ATX - -
       
Colorful CVN X570 Gaming Pro V14 ATX - -
       
GIGABYTE X570 Aorus Xtreme E-ATX - $700
GIGABYTE X570 Aorus Master ATX - $360
GIGABYTE X570 Aorus Ultra ATX $300 $300
GIGABYTE X570 Aorus Pro WIFI ATX - $270
GIGABYTE X570 Aorus Pro ATX - -
GIGABYTE X570 Aorus Elite WIFI ATX - -
GIGABYTE X570 Aorus Elite ATX $200 $200
GIGABYTE X570 I Aorus Pro WIFI mITX - $220
GIGABYTE X570 Gaming X ATX - $170
       
MSI MEG X570 Godlike E-ATX $700 $700
MSI MEG X570 Ace ATX $370 $370
MSI Prestige X570 Creation E-ATX - $500
MSI MPG X570 Gaming Pro Carbon WIFI ATX $260 $260
MSI MPG X570 Gaming Edge WIFI ATX $210 $210
MSI MPG X570 Gaming Plus ATX - $170
MSI X570-A Pro ATX - $160

On the next page is a summary of each board's power delivery system, with each subsequent page containing a brief analysis/rundown of all the individual boards.

X570 Power Delivery Specification & Comparison
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  • DigitalFreak - Tuesday, July 9, 2019 - link

    I think the only advantage of using a 2000 series CPU with an X570 board will be PCIe 3.0/4.0 support. The X370/X470 only supported PCIe 2.0. In theory, the connection from the 2000 processor to the X570 chipset should run at PCIe 3.0 speeds.
  • FreckledTrout - Tuesday, July 9, 2019 - link

    The x370 chipset and x470 both supported PCIe 3.0 with either a 1xxx or 2xxx Ryzen CPU. If you are not running a 3xxx CPU in the x570 board there isn't any major feature that should cause one to want to upgrade.
  • DigitalFreak - Tuesday, July 9, 2019 - link

    @FreckledTrout - Yes and no. The interconnect between the CPU and the chipset is PCIe 3.0 on X370 / X470, but all the PCIe lanes that come off the chipset are 2.0. Running a 2000 series CPU in an X570 board would give you a PCIe 3.0 link between the CPU and the chipset, with either PCIe 3.0 or 4.0 lanes coming off the chipset (depends on if AMD drops everything to PCIe 3.0 with a 2000 series processor).
  • extide - Tuesday, July 9, 2019 - link

    It looks like they still allow the chipset lanes to be 4.0. So you'd have 3.0 link to cpu, but 4.0 from chipset to devices.
  • Targon - Thursday, July 11, 2019 - link

    Since you have at least one or two PCI Express slots that are connected to the CPU, not chipset, that almost becomes a non-issue. On my Asus ROG Crosshair VI Hero(X370), you have PCI Express 3.0 x16 for the first slot, or x8/x8. The third PCI Express x16 slot is a 2.0 I believe, which is still enough to get the job done for many devices. Even with the X570 board with a first or second generation Ryzen processor, the most you end up with is an extra 3.0 supporting slot. Note that many boards may have x16 slots, but they are x8 electrically, so you won't see the full bandwidth anyway in those slots.
  • sorten - Tuesday, July 9, 2019 - link

    Thanks Gavin! This is a great resource and is exactly what I needed to help build my new system.
  • willis936 - Tuesday, July 9, 2019 - link

    The return of the 40mm fan! Those are the most obnoxious components ever. No one has missed them in the past ten years.
  • Kastriot - Tuesday, July 9, 2019 - link

    Buy Asrock aqua and problem solved.
  • FreckledTrout - Tuesday, July 9, 2019 - link

    I'm waiting for the next iteration of board for this reason. I'm speculating the next round the chipset will be on 7nm.
  • abufrejoval - Tuesday, July 9, 2019 - link

    The genious about that chiplet design is that the chipset doesn't actually benefit nearly as much from the shrink, as pure logic or SLC caches: The monolithic guys pay the 7nm overhead (e.g. EUV) for I/O while the geometry of the transistors in the I/O area is mostly determined by the need to power long motherbord or even slot traces.

    So while waiting is never a bad idea when your need clearly isn't overwhelming you, waiting for that shrink could turn out rather long. These days I/O heave chips might never be done in smaller geometries, because of that and because packaging has matured.

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