AMD + ITX + TB3? It's the ASRock X570 Phantom Gaming-ITX/TB3 Motherboard Review
by Gavin Bonshor on October 9, 2019 12:00 PM ESTSystem Performance
Not all motherboards are created equal. On the face of it, they should all perform the same and differ only in the functionality they provide - however, this is not the case. The obvious pointers are power consumption, but also the ability for the manufacturer to optimize USB speed, audio quality (based on audio codec), POST time and latency. This can come down to the manufacturing process and prowess, so these are tested.
For X570 we are running using Windows 10 64-bit with the 1903 update as per our Ryzen 3000 CPU review.
Power Consumption
Power consumption was tested on the system while in a single ASUS GTX 980 GPU configuration with a wall meter connected to the Thermaltake 1200W power supply. This power supply has ~75% efficiency > 50W, and 90%+ efficiency at 250W, suitable for both idle and multi-GPU loading. This method of power reading allows us to compare the power management of the UEFI and the board to supply components with power under load, and includes typical PSU losses due to efficiency. These are the real-world values that consumers may expect from a typical system (minus the monitor) using this motherboard.
While this method for power measurement may not be ideal, and you feel these numbers are not representative due to the high wattage power supply being used (we use the same PSU to remain consistent over a series of reviews, and the fact that some boards on our testbed get tested with three or four high powered GPUs), the important point to take away is the relationship between the numbers. These boards are all under the same conditions, and thus the differences between them should be easy to spot.
The ASRock X570 Phantom Gaming-ITX/TB3 is one of the better performers in our power consumption testing with a strong showing in all three of our tests. A smaller PCB tends to equate to fewer controllers and circuitry and can have an impact on this. With the most inefficient designs on the smaller form factor models getting found out very quickly, the ASRock X570 mini-ITX is highly competitive.
Non-UEFI POST Time
Different motherboards have different POST sequences before an operating system is initialized. A lot of this is dependent on the board itself, and POST boot time is determined by the controllers on board (and the sequence of how those extras are organized). As part of our testing, we look at the POST Boot Time using a stopwatch. This is the time from pressing the ON button on the computer to when Windows starts loading. (We discount Windows loading as it is highly variable given Windows specific features.)
In our POST testing, ASRock tends to field some of the best times in every platform and the X570 Phantom Gaming-ITX/TB3 is no different in this regard. It posted a competitive default POST time of just over 25 seconds which in comparison to the next board above this, the GIGABYTE X570 Aorus Xtreme which has a marginally slower POST time of 25.6 seconds. With controllers stripped down to the bare necessities, we managed to shave a further 1.6 seconds off the overall time it takes to load up Windows 10 on our testbed.
DPC Latency
Deferred Procedure Call latency is a way in which Windows handles interrupt servicing. In order to wait for a processor to acknowledge the request, the system will queue all interrupt requests by priority. Critical interrupts will be handled as soon as possible, whereas lesser priority requests such as audio will be further down the line. If the audio device requires data, it will have to wait until the request is processed before the buffer is filled.
If the device drivers of higher priority components in a system are poorly implemented, this can cause delays in request scheduling and process time. This can lead to an empty audio buffer and characteristic audible pauses, pops and clicks. The DPC latency checker measures how much time is taken processing DPCs from driver invocation. The lower the value will result in better audio transfer at smaller buffer sizes. Results are measured in microseconds.
We test the DPC at the default settings straight from the box, and the ASRock X570 Phantom Gaming-ITX/TB3 performed very well as expected. ASRock desktop models tend to have the upper hand in out of the box DPC latency performance, and this board continues that trend comfortably.
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TheinsanegamerN - Wednesday, October 9, 2019 - link
Except there is no expansion do do so...oops.This is mini ITX. This stuff NEEDS to be on the board. You can tjust add it, there is nowhere to do so!
Death666Angel - Thursday, October 10, 2019 - link
May I introduce you to the concept of USB hubs?Valantar - Wednesday, October 9, 2019 - link
Leaving the x4 m.2 PCIe link off the CPU on the table is bordering on criminal. Sure, the board is packed nonetheless, but when every single competing board has two m.2 slots, this is a no-go. Sure, TB3 would be nice, but to be realistic the only thing it would be used for would be TB3 networking when needing to do quick file transfers to a laptop. Not worth the loss of a second m.2 slot by a long shot. And sure, I could get a TB3 SSD case - and drive up the price of that second drive by 2-3x. No thank you. I'll likely go for the Gigabyte or the Strix.Valantar - Wednesday, October 9, 2019 - link
Worth adding: a legitimate use case for this would be connecting the upcoming Apple monitor. Not many SFF desktop PCs capable of that. But will that even work with non-Apple hardware?Calamarian - Thursday, April 16, 2020 - link
As far as I know no WinPC thunderbolt 3 connection would work as apple "over-clocks" it's TB3 connections to run the Apple display... :(TheinsanegamerN - Wednesday, October 9, 2019 - link
Could it be lack of trace room? Socket AM4 is bigger, leaving less space to run traces, and you already have a LOT going through a small space.DigitalFreak - Thursday, October 10, 2019 - link
While I agree with you, I'm guessing they did it because using the x4 link on the CPU for NVMe wouldn't allow the M.2 slot to support M.2 SATA drives as well. That said, they should have run the Thunderbolt controller off that x4 link if it wasn't being used.TheinsanegamerN - Wednesday, October 9, 2019 - link
Why dont they put this level of effort into micro ATX boards?DanNeely - Wednesday, October 9, 2019 - link
Because sales have imploded. The people who care about size have left for miniITX as the relevance of SLI/XFire has vanished and the price/performance penalty for the smaller size has withered away. The part of the market that doesn't care is sticking with full ATX because why not,their case holds a full size board, they might need one of the extra connectors someday, and besides the more spread out layout makes getting all the connectors in easier.
Pushing higher PCIe standards more than a few cm is going to get increasingly expensive; which is why AMD hasn't offered a 550 chipset with PCIe4 yet. Cost reasons might push mainstream PCIe4 boards out of the full ATX range. PCIe5 is much worse; to the extent that it might not become a consumer standard at all; it's looking like just reaching from the CPU to the top PCIe slot or chipset will either need expensive redriver chips or PCBs that cost a few hundred dollars for a full sized board. Assuming it happens at all, I suspect that will put a lot of price pressure towards a revival for micro ATX.
jeremyshaw - Wednesday, October 9, 2019 - link
I feel they'll just have the top slot be PCIe 4/5, then all of the other slots at PCIe 3 or even 2. Depending on chipset placement, it may not even be viable for the chipset to have PCIe5.