Supermicro X11SCA-F Overview
At its essence, the Supermicro X11SCA-F is an ATX 12′ x 9.6″ motherboard that will fit in a wide variety of chassis. It is a single socket platform that is designed for consumer CPUs and lower-end servers. Although most of the server market is centered around dual-socket designs, the remote branch office server and some workstation platforms still use this class of system. Supermicro has created what may be the ultimate crossover motherboard in this category.
Here is the official diagram if you just want to see the overview. One can see the front edge of the motherboard has a USB 3.0 front panel header, a USB 3.1 Type-A header, and a USB 3.1 Type C header which is important for integrators who want to use this platform in a variety of scenarios.
The CPU socket is Socket H4, an LGA1151 design. Here is where it gets really interesting, the platform supports a wide array of CPUs. It is a list that includes 8th gen Intel Core i9/i7/i5/i3/Pentium/Celeron Processors, Pentium, and the Intel Xeon E (Coffee Lake-S) server, Intel Xeon E-2100 (Coffee Lake-S) workstation processors.
The DDR4 DIMM slots have metal on them and one side is fixed. This is to ensure that the slots stay stable and do not break in shipping or with DIMM upgrades. We have not seen a DIMM slot break on a motherboard in years, but only handle 100-150 platforms a year so it is not a sample size. This is a carry-over from the consumer side where motherboards have these extra features to entice enthusiast buyers.
We wanted to show off the storage connectivity for a moment. There are 8x SATA III 6.0gbps ports that are found in an array of 7-pin headers stacked parallel with the motherboard. These are controlled by the Intel C246 PCH. There is also an SFF-8643 header for U.2 NVMe SSDs. This is far more storage than many of the systems built on the Supermicro X11SCA-F will need, but it adds to the flexibility of the system.
On the rear edge of the motherboard, you can see the ASPEED AST2500 BMC and its corresponding RAM. This is what gives the X11SCA-F its “-F” as it provides out-of-band management to the system. We will cover that OOB management later in this review, but it is a feature that allows this platform to be used either as a workstation or a server.
The expansion slot array is surprisingly large for this segment. There are two PCIe x16 slots. These can operate either in PCIe 3.0 x16/empty or x8/x8 mode. You can see these are shrouded in metal which is a workstation-style feature that is supposed to help with the rigidity of PCIe slots.
For additional peripherals, there are PCIe 3.0 x1 and PCIe 3.0 x4 slots. Neither interferes with a double-width cooler, for example with a GPU, in the x16 slots. Interestingly enough, one even has access to a 32-bit PCI slot. We are told that there are still customers who need to use legacy cards, so we have a 26-year-old slot on this new motherboard. PCI debuted in 1992 as your fun fact for the day.
Modern storage relies upon the M.2 form factor. Supermicro has a novel mounting system that allows consumer desktop standard M.2 2280 (80mm) NVMe SSDs in either M.2 header on the motherboard. Where this gets interesting is that the mounting system allows smaller drives, as well as the larger data center, focused M.2 22110 (110mm) NVMe SSDs that have power loss protection circuitry. Here is an example with a drive mounted in the top slot.
As you can see, the SK.Hynix NVMe SSD in the M.2 22110 form factor fits perfectly on this motherboard with Supermicro’s innovative mounting.
The rear I/O is nothing short of great. There is an array of display outputs. These include HDMI, Display Port, DVI, and legacy VGA. This array highlights the fact that there are too many display standards. It also allows for a wide variety of different devices to be connected. Deploying the Supermicro X11SCA-F as a workstation will likely mean using adapters for multi-monitor setups in conjunction with the Intel Xeon E-2100G series.
Audio is a fairly standard workstation array powered by ALC 888S HD audio. There are two network ports. One is controlled using the Intel i219LM chipset NIC. Powering the other is the Intel i210-AT an extremely popular server NIC. Along with standard networking duties, the i210-AT also provides OOB management network access for the ASPEED BMC.
Rear USB ports are 2x USB 3.1 Gen 1, 1x USB 3.1 Gen 2 Type-A, and 1x USB 3.1 Gen 2 Type-C. USB is an absolute mess in terms of naming at this point. Those four ports are not as many as we would find on a high-end consumer workstation motherboard, but they are also well beyond the typical server platform these days. That is even more so with the array of front panel headers available.
Now that we have taken a look at the motherboard, we wanted to pivot to show the block diagram so that you can see how the system is configurable. We will then go into the management features followed by our final thoughts.