The AMD B550 Motherboard Overview: ASUS, GIGABYTE, MSI, ASRock, and Others
by Dr. Ian Cutress & Gavin Bonshor on June 16, 2020 11:00 AM ESTASRock B550 Taichi
The ASRock B550 Taichi is the top-end model from the company, with the key highlight being the use of Intel’s 2.5 gigabit Ethernet controller as well as the Intel AX201 module for Wi-Fi 6 capabilities. As with other ASRock Taichi models, the focus is always on all the cogs working together, and for this motherboard the company has splashed a good amount of brushed metal around the heatsinks. The chipset heatsink is an extended affair across most of the bottom half of the motherboard, also covering the two M.2 slots.
This motherboard is also unique among other B550 boards by offering dual 8-pin CPU power connectors, along with sixteen power phases on board. Despite this being a B550 ‘mid-range’ motherboard, ASRock wants users to push the system, as right in the middle is enscribed ‘Philosophy of Infinite Potential’.
The socket area has four easy-to access 4-pin fan headers, and the power delivery heatsink extends through a heatpipe into a more solid mass on the rear panel. The system has single sided DRAM slots, suggesting users need to push hard on the modules to make sure they are in properly. On the right hand side of the motherboard are two USB 3.0 front panel headers, a USB Type-C header, another 4-pin power connector, and eight SATA ports.
Another unique thing about this board is that this is the only B550 board we have seen with eight SATA ports. In this case, ASRock uses the four SATA ports on the chipset and adds another four from an ASMedia ASM1061 controller.
The top two full-length PCIe 4.0 slots from the CPU can run at x16 or x8/x8, while the bottom full-length slot is a PCIe 3.0 x4 from the chipset. Each of these three slots use extra protection for heavy graphics cards.
On the bottom of the motherboard are additional fan headers, RGB headers, two USB 2.0 headers, and power/reset buttons with a two-digit debug LED.
Audio on the right hand side of the motherboard comes from a Realtek ALC1220 codec, which also has an NE5532 amp in the setup.
From left to right, the rear panel has the two antenna for the Wi-Fi 6 module, a BIOS flash button, a Clear CMOS button, DisplayPort and HDMI, four USB 3.2 Gen 1 ports, Intel’s I225-V 2.5 gigabit Ethernet, two USB 2.0 ports, a Type-A USB 3.2 Gen 2 port, a Type-C USB 3.2 Gen 2 port, and the audio jacks.
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kpb321 - Tuesday, June 16, 2020 - link
I'm kinda disappointed they ended up missing the opportunity to go PCI-E 4 for the CPU to GPU link. With 2 10gbs USB ports, 2 5gbs USB ports, 10 flexible PCI-E lanes that can be NVME/ Sata ports or add on controllers on the chipset there's plenty of bandwidth there to be bottlenecked by a 4x PCI-E 3 link to the CPU. Going PCI-E 4 would make this somewhat less of a bottleneck and could support for example 2 NVME PCI-E 3.0 4X drives at full speed. The B350 more balanced in this way but sadly it was because the PCI-E off the chipset was only PCI-E 2. Hanging 16x lanes worth of things off a 4x link isn't great when they could have doubled that link bandwidth pretty easily.kpb321 - Tuesday, June 16, 2020 - link
Edit 'm kinda disappointed they ended up missing the opportunity to go PCI-E 4 for the CPU to chipset linkIrata - Tuesday, June 16, 2020 - link
That‘s X570. If you need the additional storage bandwidth, this is what you should go for.Alternatively there is the Aorus board that offers the 8x CPU plus 2x 4x PCIe 4 lanes for nVMe drives plus the PCIe 3 lanes from the chipset. That could be an alternative and eight PCIe 4 lanes for the GPU should be fine with the next gen GPU, except perhaps for the top of the line models.
On the plus side, with Ryzen you have four dedicated PCIe lanes from the CPU for nVMe (16+4+4 vs. 16+4 on Intel).
kpb321 - Tuesday, June 16, 2020 - link
The X570 goes whole hog on PCI-E 4 with PCI-4 hanging off the chipset too and it supports more PCI-E and SATA and USB devices hanging off the chipset so while the CPU to Chipset bandwidth is higher it's actually even more imbalanced between the combine possible bandwidth of devices possible off the chipset and the CPU to Chipset bandwidth.Going PCI-E 4 for just the CPU to Chipset on the B550 would have given the option to decrease that imbalance and one PCI-E 4x link shouldn't have driven the power up too high.
romrunning - Tuesday, June 16, 2020 - link
Then most people wouldn't buy X570 and get B550 instead as there wouldn't be much of a difference. That, and having less PCIe 4.0 stuff lowers the power requirements a bit.I personally held off on X570 because I knew I basically only needed the GPU and NVMe drive to be PCIe 4.0 for the most future-proof setup. I figure I'll buy new again when the new AM5 socket is released with Zen 4. Plus, some of the B550 boards have a Type-C front connector, which will go with the new ITX case I'm getting that has one on the front.
PixyMisa - Wednesday, June 17, 2020 - link
Yes, but then you need to add a separate PCIe controller on the chipset to handle just those 4 lanes. The market probably isn't big enough to make it worthwhile.Irata - Tuesday, June 16, 2020 - link
The CPU to GPU link is 16x PCIe 4.0 - that has nothing to do with the chipset.Or did you mean something else?
a5cent - Friday, June 19, 2020 - link
True, but would that not have brought back the requirement for an actively cooled chipset? That definitely contributes to cost, so it makes sense to cut that from the package.Personally, I'm happy that we've finally left PCIe 2.0 behind. Such chipsets still being sold in 2020 is horrific.
Lucky Stripes 99 - Tuesday, June 16, 2020 - link
I was hoping to build several B550 APU mITX systems this week, but the lack of a compatible APU has stopped those plans. AMD's decision regarding to use a prior generation micro-architecture for its APUs in addition to their decision regarding AM4 firmware size limits are really colliding to create a missed opportunity here. If the iGPU in the Comet Lake processors was better, I'd be picking up H460 or Q470 boards right now instead.DigitalFreak - Tuesday, June 16, 2020 - link
My understanding is that the firmware size limit wasn't created by AMD. The motherboard makers could always use firmware chips with a larger capacity. Intel doesn't have this problem since they only support one or two CPU generations per motherboard :-)