Best Server Motherboard – Updated List for 2022

Best Server Motherboard – Updated List for 2022

In contrast to conventional motherboards, the most reliable and best server motherboard has solid components that permit the motherboard to operate for days without fear of malfunction or damage. Most server motherboards provide high-end CPUs for servers and ECC as well as non-ECC support for RAM. Additionally, these motherboards typically have lots of SATA ports.

If you’re planning on building your home server, take a look at this guide on the best motherboard for your home server.

1. MSI B450 Tomahawk Max - Best ATX Server Motherboard

MSI B450 Tomahawk Max – Best ATX Server Motherboard

  • Value for Money
2. Raspberry Pi 4 Model B - Best Smallest Form Factor Server Motherboard

Raspberry Pi 4 Model B – Best Smallest Form Factor Server Motherboard

  • It is suitable for many different activities.
3. GIGABYTE C246-WU4 - Best for Building a NAS Server

GIGABYTE C246-WU4 – Best for Building a NAS Server

  • Great for DIY NAS with a high-end design

Top Pick

Our top choice for today’s Best Server Motherboard is MSI B450 Tomahawk Max. This B450 Tomahawk Max features a black PCB with subtle white and grey. If you take a close look at the southbridge region and the VRM, you’ll see numerous radiators that enhance the sleek design and ensure efficient cooling. Each radiator is branded with the MSI logo at the top and has subtle details of grey and white for aesthetic purposes. Does it count as the best motherboard for production? Perhaps not, but you can take a look at the other advantages of this model.

What should you be looking for when purchasing the mini ITX server motherboards or a good server motherboard?

A motherboard consists of a range of components that determine its capabilities. Finding the right motherboard suitable for your requirements is a difficult task. The two aspects that demand the most attention when selecting the right motherboard are:

1. The chipset that determines the function connectivity, compatibility and functionality of a motherboard.

2. It is the CPU that provides the backbone of the system. Memory, motherboard, and CPU must be considered a unit when creating server systems, as they are near one another. Your decision to select one of them will impact your choices for the two other components.

Chipset

The chipset is the heart component of the motherboard. The CPU and memory of a motherboard and support major I/O device support and support for expansion cards each, depending upon the chip. When designing a workstation or server, the processor, chipset, and memory must be considered holistically. The servers/workstations and the products we have listed here are targeted at small businesses or personal users who can build the server/workstation themselves. So, the information on chipsets listed here is just one of the many varieties of chipsets for servers and workstations that are available.

Typically, the term “chipset” (sometimes called core logic) usually refers to two major motherboard chips: the Northbridge and the Southbridge. The Northbridge is often the chip that manages the communication between the CPU memory AGP, PCI Express, and the Southbridge. The Northbridge typically contains the memory controller. The Southbridge connects with I/O devices, like those on the PCI bus USB, PATA, SATA and PCI Express devices. Additional Southbridge capabilities include: interrupt controller, real-time clock energy administration (ACPI and APM), SMBus, and more. Southbridge chips are generally linked with Northbridge chips. Motherboards usually include other chips for additional functions, like SCSI controller PCI-X hub/controller and networking controller chips.

The terms “Northbridge” and “Southbridge” are old, yet they’re frequently used for the latest chipsets for servers and workstations. However, the functions are essentially similar. For instance, MCH (Memory Controller Hub) and ICH (I/O Controller Hub) from Intel are equivalent to “Northbridge” and “Southbridge” in terms of function.

CPU Support

There are two issues to be aware of regarding CPU support: the CPU type and count. Both AMD and Intel platform motherboards (compatible only with AMD or Intel processors, respectively) The CPU socket type has to be matched to be compatible with that of the motherboard’s socket for CPU to ensure an effective installation. For instance, the LGA 771 CPU has to be configured on the LGA 771 motherboard. LGA 775, Socket 603/604, and LGA 771 are Intel-compatible sockets as well, as Socket 939 Socket AM2, Socket 940 and Socket F (Socket 1207) are AMD-compatible sockets.

The chipset has equal importance to the CPU’s support – the motherboard you choose must have an appropriate chipset to support the CPU you’ve chosen.

Server systems require lots of processing power to cope with large data requests or processing demands; therefore, having multiple CPUs is an essential feature that will make sense for certain users as more CPUs enhance the processing capacity available. There are many motherboards for servers with multiple CPU sockets and dual-socket motherboards, which are the most well-liked in-home/personal/small business domains. Of course, there are quad-socket motherboards for those who are the most demanding.

Multiple-core (dual-core or quad-core) CPUs are currently growing in popularity. They can offer much greater processing power than single-core counterparts and are similar to motherboards with multi-core CPUs. It is possible to combine the multi-core CPUs to dual-socket motherboards and get even more performance!

Memory Support

The Northbridge chip was traditionally equipped with a memory controller. This means that the memory support was decided via the chipset as defined by the type of memory and memory channels and memory speed and capacity. But, with AMD Opteron processors, the memory controller is integrated into the CPU. Thus, the CPU, not the chipset, determines the memory support for the latest AMD platforms.

Memory capacity is crucial for servers, so ensure that there are sufficient memory slots on your motherboard to accommodate the performance requirements of your server. Additionally, you should pay particular attention to your motherboard’s ECC and registered memory support, both of which are crucial to servers.

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ECC

The name “Error Checking and Correction” implies ECC technology allows computers to correct memory errors. The most widely used form of ECC is single-bit error correction. It allows an error correction and detection of errors that are single bits (within one byte or 8 bits in data).

Chipkill is an innovative ECC memory technology that IBM developed. Chipkill technology divides parts of the ECC word over several memory chips, so one memory chip failure will only affect one ECC bit from the ECC word. Chipkill, therefore, lets memory data be rebuilt in the event of a chip failure or multi-bit data error using a single memory chip.

Registered Memory

As memory in the system increases, stability and performance decline of memory that is not buffered is inevitable. The memory controller must address every memory chip in each module directly, which leads to high electrical demands. To overcome this issue, high-density systems utilize register memory instead of. Registers in registered memory modules serve as buffers that temporarily store the data (address or command-related data) for a clock cycle before being transferred. This enhances the security in high-speed access to high-density memory. Still, it sacrifices some speed since Chip Select and the Bank Activate command have an additional clock cycle.

In addition to the well-known DDR or DDR2 memory module, there’s a brand new type of memory called FB-DIMM, used by a few of the most recent Intel servers.

Fully buffered DIMM or FB DIMM technology seeks to increase the memory system’s reliability, speed, and density. The FB-DIMM technology is the first to introduce Advanced Memory Buffer (AMB) between the memory controller and the DRAM chips. Its interface with AMB and DRAM chips can support DDR2 in the present and allow DDR3 shortly. This is the same as the standard memory modules. However, in contrast to the parallel interface used by traditional memory modules, the interface between the memory controllers and AMB of FB DIMM memory is a point-to-point serial bus.

The FB-DIMM technology offers high scalability and speed that can reach six channels, 192GB capacity, and 6.7GB/s capacity per channel. Compared to the more than 240 pins per channel in the current DRAM modules, FB-DIMM only has 69 pins per channel. This makes layouts for boards significantly simpler to design and lowers the cost significantly.

List of Best Home Server Motherboards

1. MSI B450 Tomahawk Max – Best ATX Server Motherboard

2. Raspberry Pi 4 Model B – Best Smallest Form Factor Server Motherboard

3. GIGABYTE C246-WU4 – Best for Building a NAS Server

4. GIGABYTE X399 Aorus Pro – Best for 1st and 2nd-Gen Threadripper CPUs

5. ASRock X570M Pro4 – Best for Ryzen CPUs

6. ASRock H370M-ITX/AC – Best In Class Features

7. GIGABYTE TRX40 Designare – Best in Class Design

MSI B450 Tomahawk Max – Best ATX Server Motherboard

The first item on our list will be one of MSI’s best-loved mid-range motherboards, called the B450 Tomahawk Max. The motherboard comes with sturdy components, which make it an ideal device for servers. It’s also a powerful and cost-effective gaming motherboard.

This B450 Tomahawk Max doesn’t have the WOW factor that many modern motherboards do with their extravagant RGB illumination and bright colors. It’s more of an elegant motherboard with lots of black-themed designs. Only a keen eye can appreciate the subtleness and the sheer power that is packed into this model.

Its B450 Tomahawk Max features a black PCB accentuated by subtle hints of white and grey. If you look closely at the southbridge region and VRM, you’ll find numerous radiators that contribute to the sleek design and ensure efficient cooling. Each radiator bears the MSI logo on top and has additional accents of grey and white to create a stylish look. Does it count as the best motherboard for production? Perhaps not, but you should look into other advantages of this model.

Value for Money Drones to Buy in 2022

This motherboard comes with two power phases that are of the best quality. This will ensure a smooth flow of power towards the processor. With these devices at your disposal, it is not likely to cause any problems whatsoever.

Regarding the processor, According to its maker, this motherboard can house up to AMD Ryzen 9 3900X, which is impressive given how affordable it is. It can house lesser processors. However, we wouldn’t suggest the use of a lower-end CPU like the one in the X570.

Like many motherboards in its category, The B450 Tomahawk Max features 4 RAM slots and one M.2 slot and six USB ports (1 of which is Type-C). In addition, it has the option of connecting up to 6 storage units using SATA III ports. There are 2 PCI-Express ports and 3 PCI x1 ports to connect expansion boards.

Specifications

  • Supports 64GB Dual Channel DDR4-SDRAM
  • Form factor ATX
  • Ports: 2 x USB2.0, 2 x USB3.2 Gen 1 Type-A, 1 x USB3.2 Gen 2 Type-A, 1 x USB3.2 Gen 2 Type-C, 1 x Ethernet LAN (RJ-45), 1 x PS/2, 1 x HDMI, 1 x DVI-D
  • Chipset: AMD B450
  • This version supports Windows 7 or later

Features

  • AMD B450 chipset
  • Multi GPU support
  • 6x SATA III ports
  • PCIe 3.0 and 2.0
  • Type-C USB port
  • Houses 6 fan headers
  • USB 3.1 and USB Type-C
  • Reliable VRM
  • Robust components
  • A good server motherboard

Pros

  • Value for Money

Cons

  • There is no secondary M.2 slot

Raspberry Pi 4 Model B – Best Smallest Form Factor Server Motherboard

Raspberry Pi has been the best example in terms of affordable, reliable single-board computing for a long time. Pi 4 Model B Pi 4 Model B is a tiny device that can power everything, including robots and digital kiosks. The capabilities of this device allow it to function as an office computer. It’s also capable of providing an output of 4K at 60 frames per second. It also has the dual-monitor capability.

The Raspberry Pi 4 has a very similar layout to earlier Pi models; however, on closer inspection, you’ll see that the ethernet port, as well as USB ports, have changed places. In addition, it boasts the latest micro HDMI ports as well as a USB-C port.

The HDMI ports can provide a resolution of 4K in 30 frames per second using dual-screen mode. If you’re using just one screen, you’ll be able to enjoy the 4K resolution at 60 frames per second, as previously mentioned.

The device is powered by its 1.5GHz ARM Cortex A72, which has slightly better performance than its predecessor, the Raspberry Pi 3B+. This small device is 3x quicker than its predecessor, the Pi 3B+. Also, it’s equipped with LPDDR4 RAM. This allows it to offer an affordable PC experience while keeping its small form factor.

In terms of storage, this motherboard is based on microSD cards for storage. It also offers a great option to boot via USB, which is a great feature since the Pi 4 features USB 3.0 technology. In terms of power, this Pi 4 Model B is powered by a 5.2V 3A USB C power source, which provides enough juice to power the most demanding CPUs, while also being capable of delivering 1.2A up to USB 3.0 devices, such as the USB storage device like a hard disk.

Apart from using this motherboard to create a tiny personal server at home, you could utilise it for many other purposes, such as robot building and writing code. Pi 4 is a great choice for code writing and robot building. Pi 4 also excels when it comes to emulation as well as media centres.

Specifications

  • Quad-core Cortex-A72
  • LPDDR4-3200 SDRAM
  • USB 3.0 and USB 2.0
  • Wi-Fi connectivity
  • USB-C power supply

Features

  • Super smooth user experience
  • Doubles as an alternative to desktops
  • Compatible with the older Pi models. Compatible with older Pi
  • A powerful processor that houses the house
  • Best mini ITX server motherboards

Pros

  • It is suitable for many different activities.

Cons

  • Sometimes, the launch is a bit bumpy.

GIGABYTE C246-WU4 – Best for Building a NAS Server

The Gigabyte c246-WU4 is the best motherboard to build a NAS server. It’s one of the biggest units we’ve reviewed that has the ATX shape. It’s also expensive, and you should ensure that it’s appropriate for your specific needs before spending your money.

We’re not saying that this is the best or most expensive motherboard on the list, and you’ll find out when you read further into the page. However, it is capable of providing better performance for NAS usage at an affordable price.

What makes it the best choice to be used for NAS servers? Because it comes with 10 SATA ports that allow you to connect ten different drives and create your ideal NAS server in your home. The disadvantage of this motherboard is that it requires an extra-large chassis to house it due to its large dimensions.

The GigabyteC249-WU4 can support ECC or non-ECC RAM without issue. It also supports the Xeon series of processors made by Intel. It also has the LGA 1151 connector, meaning that it can run 8th and 9th-Gen processors of Intel’s i9 or Celeron line. In this regard, C249-WU4 could be utilized to create an affordable gaming PC.

Are the 10 SATA ports just insufficient for your needs, and do you want to expand more? The unit comes equipped with multiple expansion slots you can use to connect the SATA PCIe Card to increase the number of hard drivers that your NAS server can use. There is a PCIe slot, 1x PCIeX16 slot with X8 bandwidth and 2 PCIe X16 slots that operate in 4x bandwidth.

As you can see, the GigabyteC249-WU4 is everything you can ask for to create the perfect NAS server. That’s the reason we recommend it for top-of-the-line NAS use. If you’re trying to build a basic NAS server, it may not be the best choice for you due to the high price. But don’t fret. There’s a budget alternative for the average NAS servers.

Specifications

  • Big ATX form factor
  • 10 SATA ports
  • ECC and non-ECC provide support
  • LGA 1151 socket
  • Intel Xeon E support

Features

  • Can handle ten hard drivers
  • Expandable by PCIe ports
  • Supports ECC and non-ECC RAM
  • Handles 8th and 9th Gen i9 chips

Pros

  • Great for DIY NAS with a high-end design

Cons

  • Not the best option for budget-conscious shoppers

GIGABYTE X399 Aorus Pro – Best for 1st and 2nd-Gen Threadripper CPUs

Are you looking to take things one step higher with a top-of-the-line motherboard? It’s not much more sophisticated than this X399 Aorus Pro. It’s an ATX motherboard, just like the C246WU4, but you can fit it into any case. This X399 Aorus Pro supports 1st and 2nd Generation Threadripper CPUs due to the FOXCONN 4094 Pins TR4 connector.

Its X399 Aorus Pro might not be the most powerful overclocker on the marketplace. However, it’s extremely efficient in running Threadrippers effortlessly. The board is equipped with premium fin-style heat sinks connected by hollow tubes, which aids in ensuring optimal airflow.

The CPU phase has the therm-padded layer that prevents the VRM from becoming overheated since you have only eight phases. The board is equipped with the typical quad-channel configuration. It can support as much as 128GB DDR4 RAM with a frequency of 3,600 MHz.

For storage is concerned, the board comes with three M.2 SSD connectors with a direct connection to the CPU, which means you don’t require an emplacement for a boot stick. The connectors offer speeds of 32Gbps, each with four SATA ports. Additionally, you have the standard SATA 3.0 plugs to utilize for traditional storage solutions. Each plug has the speed of transfer at 6Gbps.

Specifications

  • 1st – and 2nd-Gen Threadripper support
  • ECC and non-ECC provide support
  • Front and back USB 3.1 Type-C
  • Support for graphics in four directions
  • 3x ultra-fast M.2  and extremely stable.
  • M.2 connectors are connectors

Features

  • Stable performance particularly quick
  • Highly efficient air circulation
  • Very robust construction

Pros

  • Supports ECC and non-ECC RAM

Cons

  • Not the most stunning BIOS

ASRock X570M Pro4 – Best for Ryzen CPUs

If you’re trying to build a powerful DIY NAS server but think the C245-WU4 Gigabyte model is too costly for you, You should consider the ASRockX570M Pro4. The board comes with a micro ATX shape that measures 9.6 inches x 9.6 inches. It’s pretty big, but it’s not as big as the C245WU4. It will require a fairly large chassis to house this motherboard.

The X570M Pro4 runs on AM4 and is compatible with almost all the most current Athlon and Ryzen processors made by AMD. This is good because most AMD processors don’t cost much and are perfect for building a low-cost DIY storage server.

The board comes with 8 SATA ports, which allow users to connect up to eight different hard drives to create solid NAS storage. Furthermore, you get four slots for RAM capable of handling 128GB of DDR4 RAM. This board is compatible with the use of both ECC or non-ECC memory. Furthermore, there are two PCIe X16 slots. The first one is a full bandwidth, while the second slot operates at the X4 bandwidth.

10 Power Phase design is awe-inspiring on this motherboard, which means you’re assured of stable NAS performance throughout the day since it allows more VRM to go across the motherboard without causing any kind of damage or malfunction. This is a great alternative to the C246-WU4 if you prefer a larger size.

Specifications

  • Houses with an AM4 socket
  • 10 Power Phase design
  • 8x SATA III ports
  • 1st and 2nd-Gen USB 3.2
  • AMD Quad Crossfire

Features

  • Supports Athlon and Ryzen CPUs
  • Can handle eight different hard drives
  • Supports ECC and non-ECC RAM
  • Suitable for budget NAS servers

Pros

  • Remarkable phase power design

Cons

  • This requires a rather large chassis

ASRock H370M-ITX/AC – Best In Class Features

Its ASRock H370M-ITX is an extremely inexpensive mini ITX motherboard that boasts six SATA ports, meaning it can be connected to six various hard drives. This alone makes it the ideal motherboard to use for NAS servers. The mini ITX design implies that you don’t require a huge enclosure to store this device.

The board is equipped with the LGA 1151 socket, which lets you use common 8th and 9th Gen Intel processors. You can choose to go as low as the Pentium chipset or up to the Core i9 chipset, and it’s entirely your choice. If you’re building a basic NAS server, you do not require a powerful CPU. You can choose either a Pentium or Core i3.

The ASRock H370M is the only motherboard we’ve reviewed that doesn’t support ECC RAM. This might be an issue If you’re searching for the best server-grade build; however, you can build without issues with non-ECC RAM, particularly if your goal will be to construct a light, moderate, to heavy-duty server.

One of the most attractive selling advantages of this motherboard is that it comes with Wi-Fi connectivity. This provides you with an advantage in terms of NAS connection options. If you are looking for a motherboard priced less than $100, the H370M is a great feature compared to other motherboards in its class and print point.

Specifications

  • LGA 1151 socket
  • 6x SATA ports
  • 8th and 9th Gen Intel CPU support
  • Wi-Fi connectivity
  • Non-ECC RAM support

Features

  • Compatible with a variety of processors
  • Perfect connections for NAS servers
  • It can accommodate 6 hard drives.
  • Form factor doesn’t need much space

Pros

  • Price is very affordable

Cons

  • It doesn’t provide support for ECC RAM
Best Home Server Motherboards pic seven

GIGABYTE TRX40 Designare – Best in Class Design

The last item on our list and most expensive can be the TRX40 Designare motherboard from Gigabyte. This motherboard is a top option for building a robust DIY server for gaming or a home for gaming purposes. The motherboard was designed for those who work on workstations as well as content creators.

The motherboard includes all the essential features you’d want in a motherboard, from Intel Gigabit Ethernet controller to Realtek ALC4050H for onboard audio. The most appealing thing about this model is the fact that it looks like something you’ve gotten from an alien spacecraft with its sleek and futuristic black and silver themes. It’s stunning.

The TRX40 Designare can support up to 250GB ECC memory with its four channels. Additionally, it has eight SATA ports, which means you can connect up to eight drives for storage. Are you not satisfied? It comes with four slots: 4x M.2 and 2x PCIe X16slots, 1x PCIeX1 and two PCIe X8 slots you can utilize to create endless possibilities for expansion.

When you examine the rear of this motherboard, there are many connectors able to be used to integrate the various peripherals you require and the dual LAN of Gigabyte. The Designare differs from the other models in the TRX40 series because it has the GC-Titan Ridge Thunderbolt3 AIC, making it the ideal device to use with VM and workstation servers.

Specifications

  • ECC and non-ECC provide support
  • Features 4x M.2 slots
  • 8x SATA ports
  • Thunderbolt 3 AIC
  • Wi-Fi connectivity

Features

  • Supports up to 256GB of ECC RAM
  • A lot of slots to expand
  • Ideal for workstations with heavy-duty requirements
  • Outstanding aesthetics
  • Best home server motherboard

Pros

  • A variety of connectors to connect peripherals

Cons

  • Very Expensive

FAQs

Can You Game on a Server Motherboard?

Server motherboards come in ATX and E-ATX formats. They can be utilized to play games, while E-ATX is far too wide and wide to be used for gaming.

Is Intel Xeon Better Than Core i9?

The two are different beasts. Xeon processors are server-grade CPUs, and i9 chipsets were specifically designed for high-resource tasks such as gaming and editing videos. Xeon CPUs are best suited to servers that have motherboards that accommodate more than one chip.

Can I Use Xeon for Gaming?

It’s possible but not recommended as these processors aren’t able to be overclocked. It is typically required for intensive games that require a lot of resources to keep running at high speed.

Conclusion

The best server motherboard If you plan to build a home server, take a look at this guide. It features seven motherboards that are suitable for any home-based server. We’ve got you covered regardless of whether you wish to build a small dedicated server for gaming, cloud storage, an expensive VM system, a robust media streaming system for your family or a powerful gaming server that can replace several gaming PCs.

James Hope
My name's James and throughout the long term. I have actually assembled numerous PCs for me as well as my companions. I love gaming, programming, illustrations planning and essentially whatever has to do with PCs and innovation.