![]() What’s more, server CPUs can be used in multi-CPU configurations to get the most performance from a single server rack.Intel plans a pair of new sockets for launch with its new processor architecture that succeeds Westmere, codenamed "Sandy Bridge", which are due for 2011. The best Intel Xeon CPUs today feature as much as 28 cores and 56 threads, putting their desktop counterparts to shame. Server CPUs are designed with maximum reliability in mind, which is why they are designed with continuous operation in mind and support Error Correcting Code (ECC) memory, which is a special type of memory that can detect and correct the most common kinds of internal data corruption. What’s the Difference Between Desktop and Server CPUs?ĭesktop CPUs are aimed at regular computer users, and they typically come with onboard graphics and support for overclocking. Generally, a processor class or family with more features is indicated by a higher number, while additional numbers or letters may further specify the exact type of the processor. The processor numbers are categorized in four-digit numerical sequences, and they may have a prefix to indicate power and performance.For example: Intel Xeon Silver 4110, Intel Xeon Gold 6138, or Intel Xeon Platinum 8180. Intel Xeon Scalable: The most capable Intel Xeon processors out there, delivering unparalleled scale and performance for compute, storage, memory, network, and security.The numbering system is an alphanumeric representation of product line, product family, and version.For example: Intel Xeon E3-1240 v3 or Intel Xeon E5-2699A v4. Intel Xeon aimed at servers and workstations.They were first introduced in 1998, and they can now be found inside most servers: Intel Xeon processors are intended for non-consumer workstations and servers. But as if to make things more confusing, Intel uses a completely different CPU generation naming scheme for its server processors. Coffee Lake Refresh (9th generation): Recently, Intel unveiled a new series of 9th Generation Core processors, which improve the Coffee Lake architecture by providing bug fixes, performance improvements, and more refined voltage to frequency curves, among other things.Īs you can see, some Intel Core processor generations differ more than others, but newer generations always offer better performance and power consumption than older generations.Coffee Lake (8th generation): Still sticking with the 14-nanometer manufacturing process, Coffee Lake is yet another architectural refinement, following Broadwell, Skylake, and Kaby Lake. ![]() Kaby Lake (7th generation): Breaking with Intel's famous tick-tock manufacturing and design model, Kaby Lake is produced using the same 14-nanometer manufacturing process as both Broadwell and Skylake.Skylake (6th generation): Following its tick-tock manufacturing and design model, Skylake further improves Broadwell’s 14-nanometer manufacturing process to offer better performance and lower power consumption.Three major design variants of Broadwell are available, one of which is backward compatible with the LGA 1150 motherboards designed for Haswell processors Broadwell (5th generation): With Broadwell, Intel introduced the 14-nanometer manufacturing process.Haswell (4th generation): Just like Ivy Bridge, Haswell is also based on the 22-nanometer manufacturing process, but it’s heavily optimized to achieve better power consumption and performance. ![]()
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