4 Best CPU for Servers

High-quality server processors are crucial. When looking for the best CPU for servers, optimizing servers is essential for maintaining a steady stream of data, money, and profit between a business and its customers. As a result, the server is responsible for increased productivity and daily data storage. 

A server allows an organization, its workers, and customers to access the data on the go. The processor also plays a critical role in handling the many tasks and data stored on a server.

Determining which of the many top server processors is best for your organization’s needs might be challenging. However, in this post, you will learn crucial information about the top server CPUs and their characteristics.

Top CPU for Servers Picks

  1.  Intel Core i5-12600K – Best Performance
  2.  Intel Xeon Processor – Best Overall
  3.  AMD Threadripper 3995WX – Best Value
  4.  AMD Threadripper 3990X – Best for Workstations

Intel Core i5-12600K

Our Pick

Intel Core i5-12600K

4.8/5 925 Reviews

The Intel Core i5-12600K is a sweet spot between price and performance. This central processing unit (CPU) was made specifically for desktops and laptops. It is also the greatest processor you can obtain in affordability and performance. There may be more potent CPUs available, but the Core i5-12600K offers the best performance for the price.

  • Excellent performance
  • Great value 
  • Affordable
  • The socket is outdated
  • Only good for simple tasks

The Intel Core i5-12600K can be overclocked to a maximum of 4.90GHz from its base 3.70GHz. The i5-12600K has a completely unlocked multiplier for overclocking, allowing for even higher speeds if desired. This processor can play games at high settings or easily create complex scenes thanks to its 10 cores and 16 threads.

The i5-12600K is one of the cheaper CPUs on our list but needs a newer socket 1700 motherboard and DDR4 RAM, so remember that when budgeting for your new computer.

Intel Xeon Processor

Our Pick

Intel Xeon Processor

4.8/5 1972 Reviews

High-end Intel Xeon processors are often used because of their ability to handle enormous loads with relative ease. They’re comparable to Intel’s Core CPUs in many ways and even a step forward in others. Given their massive storage and computing capability, Xeon processors are sometimes referred to as power processors.

  • Massive storage capacity
  • Various cores
  • Improved performance
  • Pricey
  • Can’t run intense programs

The “core” of a processor is its most important part; it receives and writes instructions, and the fact that Xeon has so many cores makes processing easy. These processors are ideal for demanding software and strategic tasks, and error-correcting code memory (ECCM), which prevents subtle errors from occurring when the processor reads and writes data.

Intel’s entry-level Xeon E processors are often used for core server systems. Intel’s Xeon processor lineup is extensive, and each series is designed for a specific task. In addition, many experts in the creative industries employ Xeon W Processors for rendering. Visual effects rendering, 3D computer-aided design, and other related tasks are manageable on processors in the W family.

The Xeon D Processors enter the fray in the W range sector when peak performance is required, and the processor’s power is at a premium.

AMD Threadripper 3995WX

Our Pick

AMD Threadripper 3995WX

4.7/5 838 Reviews

AMD’s newest super processor offers formidable opposition to the premium high-end CPU market. It has 64 CPU cores, 128 threads, and up to 2 terabytes of RAM, which may be distributed over eight memory channels. When operating at maximum loads, the frequency reaches up to 4.2 GHz from its base of 2.7 GHz.

  • Great value
  • Fast speed
  • Multi-performance
  • Not suitable for gamer

The 3995WX is an affordable processor with excellent performance for its price range. When it comes to multi-core performance at fast speeds, this CPU is without a peer. Additionally, this may serve the needs of rendering, visual effects, and 3D animation. The increased frequency provided herein allows for rapid operation under light loads and stable operation under heavy loads.

The processor’s improved memory power allows for efficient reading and writing, and the processor’s eight memory channels serve as a dedicated performance boost for processing large amounts of data.

AMD Threadripper 3990X

Our Pick

AMD Threadripper 3990X

4.6/5 73 Reviews

The AMD Threadripper 3990X continues the series’ trend of being among the most expensive and powerful of its kind. Threadripper’s sky-high cost is the first thing that will jump out at you. The additional expense may be reasonable, though, for office desk use.

  • Powerful CPU 
  • Suitable for multitasking
  • Great speed
  • Expensive 
  • Not compatible with RDIMMs

Threadripper’s staggering 64 cores and 128 threads provide unparalleled performance in multicore workloads. Threadripper’s advantages become clearer when considering how much you depend on a personal computer for work. Studio heads in the film and gaming industries lauded this CPU for its unparalleled speed while editing 8K footage and transcoding.

The AMD Threadripper 3990X is undeniably among the most powerful CPUs available, but its steep price tag prevents it from being within reach of most computer users.

What to Look for When Purchasing Server Processors

Knowing how to choose the right CPU for a server is important. Before buying any processor, think about these things.


Cores are the computational building blocks of core processors. Each of these cores may carry out a single set of instructions for a specific computing job. When there are several processing cores on a single integrated circuit, we call it a multi-core processor. It stops a frozen program or operating system from occurring. Freezing of a single processor core does not prevent operation on the rest of the system, and the applications will close or restart if necessary.

Speed of the Clock 

Clock speed refers to the rate at which the cores issue instructions to the rest of the computer. The unit of the clock speed is gigahertz. When the number of cores in a CPU increase, so does its speed and overall performance. To keep programs running, the processor’s clock speed must be high enough to support continuous task execution. The data transfer rate is calculated as the product of the speed and the bit width. When using a bit-width of 32 bits and a speed of 2.92 GHz, for instance, it can handle over 3 billion data units per second.


If the CPU represents the mind of the computer, then the motherboard represents its very being. RAM, various periphery connections, input/output, sockets, and so on are all part of the main circuit board.

Frequently Asked Questions (FAQS)

How many central processing units should my server have?

The maximum number of processors that you may put in the server is equal to the number of CPU sockets it has. Standard server configurations may have anything from one to four CPU sockets, and sometimes even as many as 32. A server with one socket can only handle a single CPU, whereas a server with four sockets can accept four processors.


There are a few factors to consider when deciding which central processing unit (CPU) is best for your requirements. First, consider the functions that your server will need to fulfill. To get the most out of your server, you should acquire a CPU with a high clock frequency and as many cores as feasible if you plan on using it for processing-intensive applications like video editing or 3D rendering. However, if your server’s primary function is to host websites or handle electronic mail, then you may get by with a less powerful central processing unit (CPU).

One last item to think about is how much cash you have available. There is a wide price range for central processing units (CPUs), from a few hundred to several thousand dollars.

Finally, remember that the central processing unit is just one portion of your server and that it’s crucial to choose additional components that will operate well with your CPU. For instance, if you want to run several programs that place a heavy demand on the computer’s central processing unit, you need to ensure that your system has sufficient memory to run these programs.