Processors - Servers - Showing 1 - 24 of 592 Products

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Intel Xeon Silver 4310 Ice Lake 2.1 GHz 18MB L3 Cache LGA 4189 120W BX806894310 Server ...
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AMD EPYC 7513 Milan 2.6 GHz 128MB L3 Cache Socket SP3 200W 100-000000334 Server ...
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Intel Xeon W5-3435X Processor 16 cores 45MB Cache, up to 4.7 GHz
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Intel Xeon Bronze 3204 Cascade Lake 1.9 GHz 8.25MB L3 Cache LGA 3647 85W BX806953204 ...
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Intel Xeon Gold 6242 16-Core 2.8 GHz (3.90 GHz Turbo) 22MB Cache LGA 3647 150W ...
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Xeon W1250P Processor
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Intel Xeon w9-3475X Processor 36 cores 82.5MB Cache, up to 4.8 GHz
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AMD EPYC 7413 Milan 2.65 GHz 128MB L3 Cache Socket SP3 180W 100-000000323 Server ...
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Intel Xeon w7-3465X Processor 28 cores 75MB Cache, up to 4.8 GHz
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HP 708487-L21 - Intel Xeon E5-2430 v2 2.5GHz 15MB Cache 6-Core Processor
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HPE Intel Xeon Gold 2nd Gen 6226R Hexadeca-core 16 Core 2.90 GHz Processor Upgrade ...
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Intel Xeon Silver 4309Y Ice Lake 2.8 GHz 12MB L3 Cache LGA 4189 105W BX806894309Y ...
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Intel Xeon Gold 6330 Ice Lake 2.0 GHz 42MB L3 Cache LGA 4189 205W BX806896330 Desktop ...
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Intel Xeon Silver 4210R Cascade Lake 2.4 GHz 13.75MB L3 Cache LGA 3647 100W ...
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Intel Xeon E-2374G Rocket Lake 3.7 GHz 8MB L3 Cache LGA 1200 80W BX80708E2374G ...
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Intel Xeon Silver 4316 Ice Lake 2.3 GHz 30 MB L3 Cache LGA 4189 150W BX806894316 Server ...
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Intel Xeon W7-2475X Processor 20 cores 37.5MB Cache, up to 4.8 GHz
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Intel Xeon E-2334 Rocket Lake 3.4 GHz 8MB L3 Cache LGA 1200 65W BX80708E2334 Server ...
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AMD EPYC 72F3 Milan 3.7 GHz 256MB L3 Cache Socket SP3 180W 100-000000327 Server ...
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AMD EPYC 7543P Milan 2.8 GHz 256MB L3 Cache Socket SP3 225W 100-100000341WOF ...
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Intel Xeon W5-2465X Processor 16 cores 33.75MB Cache, up to 4.7 GHz
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INTEL XEON W3-2423 PROCESSOR 6 CORES, TRAY
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Intel Xeon E-2176G Coffee Lake 3.7 GHz LGA 1151 80W BX80684E2176G Server Processor ...
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AMD EPYC 7352 2.3 GHz 128MB L3 Cache Socket SP3 155W 100-000000077 Server Processor
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Desktop and Server Processor Comparison

What are the differences between a desktop and server processor?

Servers and desktops are used for different purposes, and a server processor reflects that. It is designed to be more robust and have features that are not needed in desktops. It must be able to process the needs of multiple users simultaneously, run reliably for very long periods of time, support server-specific hardware and software, manage network resources, and more. NeweggBusiness will detail some of the major hardware differences between desktop and server processors that allow the latter to meet those requirements.

Increased number of cores

The number of cores a processor has and the clock speed of those cores are two important factors that affect overall processor performance. Increasing the clock speed of a processor’s cores allows it to perform calculations quicker while increasing the number of cores allows it to perform more calculations simultaneously.

Some server programs can utilize multiple cores to increase the number processes that can be executed at one time. For instance, when multiple client computers send requests to a server, each individual core can be leveraged to handle a different request.

Multi-processor support

Some server motherboards have the ability to use more than one processor, with a handful able to support up to four CPUs. This allows for additional cores to be utilized by the server, which is then able to support more users and processes. For instance, one common practice is to use two quad-core processors for a total of eight useable cores.

Support for error-correction code (ECC) memory

Some server processors are able to support memory with error-correction code, otherwise known as ECC memory. ECC is a feature that allows the memory to perform self-checks and fixes for common data errors. It is a very important feature, as errors in system memory can lead to data corruption or crashes.

Larger CPU cache sizes

A CPU cache is a small amount of memory that is located on the processor chip and is used to store frequently accessed data. Compared to desktop processors, server processors will typically have larger caches.

Support for larger memory capacities

When comparing specifications for server and desktop processors, you may notice that some server processors are able to support very large amounts of memory—much more than desktop processors. However, the motherboard and software must also be able to support that much memory.

Rated for longer periods of sustained load

Servers sometimes operate continuously for very long periods of time, which can put a lot of strain on the processor. To meet those needs, server processors have features that help prevent overheating, reduce power consumption, equalize workloads, and more.

Conclusion

These hardware differences allow a server processor to function reliably for very long periods, handle the needs of multiple users simultaneously, and support specialized software. If you are assembling a server workstation for your organization’s network, then be sure to use server-grade hardware such as a server processor and motherboard.

 

By NeweggBusiness Staff