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How to Choose the Perfect motherboard for a Intel 12th-gen CPU – Guide
The motherboard is heart of your system, and it can be difficult to understand what exactly makes the best motherboard and why. But we went further and found the best 12th Gen Intel motherboard for your new Alder Lake CPU. Now that Intel has completed its lineup of 12th-generation “Alder Lake” desktop processors and its 600-series chipsets, choosing the right motherboard is even more important.
Every CPU fits a different situation, and so the motherboard you put it on can make or break your goals. That’s because your motherboard’s chipset determines your PC’s capabilities. Especially with Alder Lake, you will need to pay close attention to detail to ensure that feature support you want. It gets even more difficult when cost is an important factor.
How to Choose the Perfect Motherboard for a 12th Gen Intel CPU
form factor
Motherboards come in a variety of sizes, which means you have some flexibility in building your PC to suit your environment. If you have a lot of space, you can opt for a full-sized tower case, while if you’re building one. home Theater PC (HTPC) to go under the TV in your living room, you will likely need a much smaller cabinet.
That’s why motherboards come in different sizes or shapes, and these standards define not only the size of the motherboard, but also how many of the various components it will support. The latter may vary, but in general, the bigger the motherboard, the more components it can support. Not all cases support all form factors, so you have to make sure your motherboard and case are compatible.
Expansion options for motherboards
Motherboards can have a variety of components attached to them in addition to the CPU, including graphics cards, sound cards, network cards, memory devices and connectors, and a host of others. Over the years, there have been many types of expansion ports, but luckily things have gotten a lot simpler. Today, you mainly deal with Peripheral Component Interconnect Express (PCIe) connectors, although some motherboards also include PCI slots for older devices.
PCIe is the most important connector and the one you use to connect most components today. There are four sizes of PCIe slots, and the latest standard is PCIe 3.0, with PCIe 4.0 available on the latest Ryzen and Intel Comet Lake compatible cards. These four sizes determine the throughput of the connection and its size – you must make sure you have enough expansion slots and that they are the right size to meet all your current and future needs.
The four slot sizes are x1, x4, x8, and x16, with x4 and x16 being the most common. Motherboards vary greatly in the number of slots and also in their placement. You must make sure you have enough slots and enough space for all the necessary components.
GPU support
All PCs need a way to produce information in a visual format that we humans can use. In simple terms, this means displaying images on a monitor. The component that performs this function on a typical PC is the graphics card or GPU, and you need to make sure that your motherboard can support the type of GPU you need for your intended purposes. Some Intel Core CPUs have integrated GPUs that allow output to a monitor, and AMD has its own version of the APU (Accelerated Processing Unit) that combines a CPU and a GPU in the same chassis.
These relatively low power GPUs are great for common productivity tasks, but only support less graphically demanding games (like esports titles). If you need a more powerful GPU, whether for gaming or for more demanding applications like video editing that can leverage a GPU for faster processing, then you probably need a standalone GPU. In that case, you should pay attention to the types of GPUs you can connect to your motherboard and how many GPUs your motherboard can support.
processor socket
Motherboards typically contain at least one processor socket, which allows your CPU (the PC’s mechanical “brain”) to communicate with other important components. This includes memory (RAM), storage and other devices installed in expansion slots – both internal devices such as GPUs and external devices such as peripherals. When selecting a motherboard, check your CPU documentation to ensure the board is compatible with your CPU. Sockets vary to support different products based on generation, performance, and other factors, changing the pin layout.
Modern Intel motherboards connect CPUs directly to memory, from which they retrieve commands from various programs, as well as to some expansion slots that can accommodate performance-related components such as GPUs and memory units. The memory controller is on the CPU itself, but several other devices communicate with the CPU through the chipset, which controls many expansion slots, SATA ports, USB ports, and sound and networking functions.
Connecting your GPUs
Most GPUs today connect via PCIe slots and most use PCIe x16 slots. Also, most modern GPUs require PCIe 3.0 or higher. The final The requirement is the available width of each PCIe slot, and many GPUs require a width of two slots. This can result in some PCIe x1 slots being blocked and inaccessible, which is fine as long as it doesn’t surprise you. Note that some GPUs can only use the 75 watts of power from the PCIe slot, but most GPUs require more power via six or eight-pin connectors from a large enough power supply.
So when choosing your motherboard, make sure it offers the right kind of PCIe slots. This means that you need to carefully check the GPU specs and compare them to the motherboard specs. If you want to connect two or more GPUs, which are called Scalable Link Interface or SLI by NVIDIA and Crossfire by AMD, you will need two free PCIe slots and a compatible motherboard.
RAM
Your CPU needs a memory space to store information while your PC is up and running. This is called “working memory” or RAM, and today’s PCs are usually equipped with at least 4GB of RAM. How much RAM you need for your own PC depends on how you plan to use it. 8GB is generally a safe recommendation for less demanding users, while 16GB or more is a good option for more demanding users.
Today’s RAM connects to the motherboard via a rectangular slot named after the type of RAM used today: the Dual In-Line Memory Module (DIMM). The number of DIMM slots on a motherboard determines how much RAM you can add and usually ranges from two to eight slots. You can add one RAM module at a time, but you will get the best performance if you install RAM in matching pairs.
Memory
To use your PC, you need a place to store your operating system, applications and data when the machine is off. Currently, you can choose between a hard disk drive (HDD), which has spinning platters that store data, and a solid state drive (SSD), which stores data in much faster flash memory. HDDs tend to be cheaper and offer more storage, while SSDs are more expensive but offer more speed and are great for storing operating systems and applications.
There are a few key storage connectors you should consider when purchasing your motherboard. This includes the type of ports and the number of ports you can use to add memory to your PC. Some of these ports are internal, while others are external.
A small SSD and a large HDD
As with many of the components in this article, there are many factors that influence choosing the right storage. A common tactic is to buy a relatively small SSD for the operating system and applications, which offers much better performance, and then larger HDDs to store large amounts of data such as photos and videos.
Regardless of which storage you choose, make sure your motherboard can meet your needs now and in the future. To do this, you’ll need to carefully study the motherboard’s specs to make sure you’ll be able to plug in all the memory you need one day. Keep in mind that you can also connect external storage devices if needed and this is a requirement for the data you need to carry.
connectivity
We’ve covered several ways to connect components to a motherboard, including PCIe, DIMM slots, and memory connectors. There are several other types of connectors supported by motherboards, and again, you should consider your needs very carefully when choosing a motherboard.
In addition, some connectors are located directly on the motherboard and inside the case, and sometimes they are used to connect to connectors on the front, top, side or back of the case. Also consider which connectors your case supports and make sure your motherboard provides the internal connectors you need. Motherboards also have externally accessible connectors on an input/output (I/O) backplane that fits in a commonly used position on the back of the case.
Final note
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