Over the last year, we've seen several B550 models, with the vast majority of these catering to desktop users and gamers looking for a cost-efficient option to use with AMD's Ryzen processors. Back in January, we reported that ASRock Rack had readied up a new B550 model with a more professional flavor, the B550D4-4L. The B550D4-4L features support with a broad range of AMD Ryzen processors, including 5000, 4000G, and 4000 Pro, with support for most 3000 series processors. Some of the board's core features include Gigabit Ethernet, support for 128 GB of DDR4 memory, and an ASPEED BMC controller for management over a network. We get to grips with the ASRock Rack B550D4-4L and see how it compares to other AM4 models in our latest motherboard review. It came with a few surprises as well.

ASRock Rack B550D4-4L Overview

Perhaps considered one of the most 'interesting' motherboards based on the B550 chipset is the ASRock Rack B550D4-4L. At the time of writing, the B550D4-4L is the only B550 board known to us that includes a BMC controller. It is designed to utilize the power and high-core count of AMD's Ryzen 5000 and 3000 desktop processors, with support also available for AMD's Ryzen Pro 4000 series and some Pro 3000 Processors.


The ASRock Rack B550D4-4L has a transposed AM4 socket and transposed memory slots

Looking at the overall design, it is focused on professional use and uses a standard green PCB. The B550D4-4L opts out of fanciful aesthetics and instead focuses on core functionality. Along the top is four memory slots which are horizontally mounted, with support for up to 128 GB DDR4-3200, both ECC with supported Ryzen Pro processors and non-ECC memory on the regular Ryzen desktop models. The B550D4-4L has one full-length PCIe 4.0 x16 slot and one half-length PCIe 4.0 slot. For storage, there's just one M.2 slot but is only capable of supporting PCIe 3.0 x4 or SATA drives, as well as six SATA ports, four from the chipset and two from an ASMedia controller.

The rear panel has four Intel Gigabit Ethernet ports, with a fifth Ethernet port for the board's ASPEED BMC controller, allowing remote access to the system over a network. Other connectivity includes an HDMI output for use with processors with integrated graphics and a D-Sub output (DB15) for the BMC, and four USB Type-A ports, two USB 3.2 G2, two USB 3.2 G1. ASRock Rack also includes a serial connector (DB9). The B550D4-4L also has a USB 3.2 G1 header providing a further two ports, a USB 2.0 header for two ports, and six 6-pin fan headers.


ASRock B550D4-4L Block Diagram

Looking at performance, the B550D4-4L was surprisingly competitive in our computational-focused benchmarks, with the board using AMD's Precision Boost Overdrive at default. This is above simply doing a good turbo, making the board perform a lot better than we would assume.

One downside in performance was perhaps the memory - it ran at DDR4-3200 CL22 as opposed to other B550 models we tested at DDR4-3200 CL16, and no matter what values we put in for the latencies, they stayed at JEDEC CL22.

The B550D4-4L also proved competitive in our system testing, with faster than expected POST time performance. It showed lower power consumption in long idle and idle power states than most boards, while power consumption at load was comparable with other models on test. The board's DPC latency performance isn't great, but it doesn't include any form of audio codec or audio output regardless.

The ASRock Rack B550D4-4L is a unique B550 model, with not much competition in the way of server-focused models. ASRock also has a model based on the propriety deep mini-ITX form factor, the B550D4ID-2L2T, which uses the B550 chipset for more professional level function. Unlike other B550 models, the B550D4-4L disables overclocking, which is understandable given its lack of heatsink capability on the power delivery, highlighting that this board isn't for pushing the boundaries or requires a system with strong airflow.

The real capability comes for users looking to build a Ryzen desktop-based server with the associated performance levels at default settings, along with added functionality for both Ryzen Pro series processors and the ASPEED BMC controller allows access and control of the system remotely. It's also the only B550 model to feature four dedicated Ethernet controllers, and it makes it one of the most interesting AM4 models we've received for review so far.

Read on for our extended analysis.

Visual Inspection
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  • bananaforscale - Saturday, May 22, 2021 - link

    This. Reply
  • mode_13h - Friday, May 21, 2021 - link

    > I think 2x2.5G would be more appropriate for the target market of this board.

    Probably the main issue is that support for 2.5 GigE is (still?) uncommon on enterprise switches.

    > Anybody considering 10Gbe is likely on the verge of adopting 25/40/100G anyway

    A lot of people are just starting to move up to 10 GigE. Anything faster doesn't make a lot of sense for SOHO applications.
    Reply
  • bananaforscale - Saturday, May 22, 2021 - link

    Especially considering how overpriced 10G twisted pair NICs are. Reply
  • mode_13h - Saturday, May 22, 2021 - link

    Eh, I got a pair 2 years ago for < $100 each. I've spent more on a 3Com 10 Megabit PCI NIC, back in the late 90's. Or maybe it was 100 Mbps. Reply
  • Samus - Monday, May 24, 2021 - link

    Probably 100mbps if it was PCI. The 100Mbps ISA NICs were pretty damn pricy because by the time 100Mbps became commonplace, ISA was on its way out and PCI was becoming mainstream (Pentium-era.)

    Even now an 100Mbps ISA network card is $50+
    Reply
  • PixyMisa - Friday, May 21, 2021 - link

    By preference, but some datacenters use Cat6 and others use SFP. Others have already moved up to 25GbE. 10GBaseT is perfect for workstations, but not necessarily so for servers. Reply
  • mode_13h - Saturday, May 22, 2021 - link

    > some datacenters use Cat6

    Really? For what? Management? Twisted-pair is very energy-intensive at 10 Gigabits, and can't go much above. So, I'd imagine they just use it for management @ 1 Gbps.

    Within racks, I'd expect to see SFP+ over copper. Between racks, it's optical all the way.
    Reply
  • Samus - Monday, May 24, 2021 - link

    I've toured a lot of datacenters in my lifetime and I can honestly say I haven't seen copper wiring used for anything but IPMI and in extreme cases POTS for telephone backup comms though even this is mostly dead now as it has been replaced by cellular. Even HP ILO2 supports fiber for remote management, and you can bet at the distance and energy profile data centers are working with, they use fiber wherever they can. Reply
  • alexey@altagon.com - Friday, May 21, 2021 - link

    Agree, companies are saving money and customers are paying more. Reply
  • Spunjji - Monday, May 24, 2021 - link

    That's an opinion, for sure. Reply

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