As such, even if a CPU is compatible with a given socket, it must also be compatible with your motherboard’s chipset. If your memory, storage graphics card, or most relevantly your CPU, can’t communicate with the chipset, they won’t work on your system. The chipset is a vital compatibility check for the components connected to a computer. If the CPU socket provides the various roads that data travels on, the chipset runs the traffic lights to tell data where to go. The chipset enables the processor to focus on computing while the chipset handles all the nitty gritty tasks needed for the computer to run properly. The choice of socket for industrial devices comes down to the same decision point as consumer systems: what the system will be used for.Ī computer chipset (also referred to as the Platform Controller Hub) helps to manage the flow of information between the motherboard and processor. Regardless of the target market, any of these CPU sockets can be used in an industrial computer. Market classifications can be broadly defined as mainstream computing, high-end desktop (HEDT) and server grade. Those sockets offer differing compatibility for chipsets and target different markets depending on user needs. The two primary processor manufacturers, AMD® and Intel®, each have their own processor socket designs. And even if a given CPU does match up with a motherboard socket, it must also be compatible with the built-in chipset on the board (more on that in a moment). Not every available CPU will fit in every socket. When creating or considering an industrial PC, it’s important to understand the differences between processor sockets. The differences between processor sockets
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