Buy Server Processors – High-Performance Server CPU for Your IT Infrastructure
Server Processor Prices
AMD
AMD Ryzen 7 5700X3D 8 Cores 16 Threads 4.1GHz AM4 100-100001503WOF CPU
Out of stock
Intel
Intel Xeon 6787P 86 Cores 172 Threads 3.8GHz E2 (LGA 4710) PK8072006269800 Server CPU
Out of stock
Intel
Intel Xeon Gold 6534 8 Cores 16 Threads 4.1GHz E (LGA 4677) PK8072205558800 Server CPU
Out of stock
AMD
AMD Ryzen 7 3800X 8 Cores 16 Threads 4.5GHz AM4 100-000000025 CPU
Out of stock
AMD
AMD EPYC 9845 160 Cores 320 Threads 3.7GHz SP5 100-000001458 Server CPU
Out of stock
Intel
Intel Xeon 6980P 128 Cores 256 Threads 3.9GHz BR (LGA 7529) PK8072006023100 Server CPU
Out of stock
Intel
Intel Xeon Platinum 8260 24 Cores 48 Threads 3.9GHz P (LGA 3647) CD8069504201101 CPU
Out of stock
Intel
Intel Xeon E-2374G 4 Cores 8 Threads 5GHz H5 (LGA 1200) BX80708E2374G Server CPU
Out of stock
Intel
Intel Xeon Platinum 8160 24 Cores 48 Threads 3.7GHz P (LGA 3647) BX806738160 Server CPU
Out of stock
Intel
Intel Xeon Gold 6142 16 Cores 32 Threads 3.7GHz P (LGA 3647) BX806736142 Server CPU
Out of stock
AMD
AMD Ryzen 5 3600 6 Cores 12 Threads 4.2GHz AM4 100-100000031SBX CPU
Out of stock
Intel
Intel Xeon Gold 6144 8 Cores 16 Threads 4.2GHz P (LGA 3647) CD8067303843000 CPU
Out of stock
Intel
Intel Xeon Platinum 8280 28 Cores 56 Threads 4GHz P (LGA 3647) CD8069504228001 Server CPU
Out of stock
AMD
AMD Ryzen 9 PRO 3900 12 Cores 24 Threads 4.3GHz AM4 100-000000072A CPU
Out of stock
AMD
AMD Ryzen 7 5800X3D 8 Cores 16 Threads 4.5GHz AM4 100-100000651WOF CPU
Out of stock
Intel
Intel Xeon Gold 6246 16 Cores 32 Threads 4.1GHz P (LGA 3647) CD8069504449801 Server CPU
Out of stock
AMD
AMD EPYC 7402P 24 Cores 48 Threads 3.35GHz SP3 100-000000048 Server CPU
Out of stock
Intel
Intel Xeon 6756E 128 Cores 128 Threads 2.6GHz E2 (LGA 4710) PK8077105931000 Server CPU
Out of stock
Can't find the right product from "Server Processor"?
Frequently Asked Questions about Server CPU:
Yes, some server heatsinks must be fastened with a specific torque to ensure optimal heat transfer. The manufacturer provides the recommended torque, so a torque wrench can be useful.
No, the old paste should be completely removed, and a new, even layer should be applied.
Not all CPUs support multi-socket operation. For Intel, a "U" in the model number indicates a single-socket CPU, while AMD uses a "P" at the end of the model number for the same purpose. If this identifier is missing, the CPU is
usually multi-socket compatible. When in doubt, check the manufacturer’s datasheet.
Yes, this is possible. However, not all functions will be available. Modern dual-CPU servers support operation with a single CPU, allowing for a second one to be added later.
Technically yes, but server CPUs offer several advantages such as ECC memory support, multi-socket compatibility, and higher reliability for continuous operation.
Technical Features of Server Processors
1. Number of Cores and Threads
Modern server CPUs feature a high core count to efficiently handle parallel workloads. Scalability ranges from 4 to 128 cores per processor. Simultaneous Multithreading (SMT) or Hyper-Threading (HT) allows each core to execute multiple threads in parallel, significantly boosting performance.
2. Clock Speed and Boost Technologies
The base clock speed of server processors typically ranges between 2.0 GHz and 4.0 GHz, with Turbo Boost features enabling dynamic performance increases.
3. Cache for Faster Data Processing
A large cache reduces access times and improves processing speed. Server CPUs feature L1, L2, and L3 caches with capacities of up to 256 MB, ensuring frequently accessed data is stored directly in the processor.
4. Memory Support (RAM Compatibility)
- Support for DDR4 and DDR5 ECC RAM (Error-Correcting Code) to prevent data errors.
- Multiple memory channels: Up to 12 memory channels for maximum bandwidth and performance.
- Capacity: Support for up to 4 TB of RAM per CPU, ideal for memory-intensive applications.
5. PCIe Lanes and Expansion Options
- The number of PCIe lanes determines the bandwidth for connected devices such as enterprise NVMe SSDs, such as a Samsung Enterprise SSD, server GPUs, or network cards.
- Server CPUs offer bandwidths of up to 128 GB/s per direction.
- High-end processors support up to 128 PCIe lanes.
6. Energy Efficiency and Cooling
- TDP (Thermal Design Power): Ranges from 65 W to 400 W, depending on the performance class.
- Advanced Power Management (APM) support to optimize energy consumption.
- High-performance cooling solutions such as active air cooling, heat pipes, or liquid cooling for extreme workloads.
Different Server CPU Architectures
Server processors are optimized for various workloads and infrastructures. The choice of architecture depends on scalability, energy efficiency, computing power, and expandability.
1. Server Processors for General Enterprise Applications
- Optimized for virtualization, databases, and enterprise applications.
- High core count with multi-threading support for parallel workloads.
- Support for fast memory connections (DDR4/DDR5) and ECC technology for error correction.
- Expansion options with a high number of PCIe lanes for NVMe SSDs, network cards, and GPUs, whereas for large volumes of data, durable enterprise-class hard drives such as the Seagate Exos are often used.
2. High-Performance Processors for Compute-Intensive Workloads
- Ideal for scientific calculations, AI models, and big data analytics.
- Supports special instruction sets for machine learning and simulations.
- High cache capacity for faster data processing and reduced memory access times.
- High memory bandwidth with multiple memory channels for data-intensive applications.
3. Energy-Efficient Server Processors
- Designed for cloud environments, edge computing, and web servers as well as an energy-efficient core component in NAS solutions such as a Synology DiskStation.
- Low power consumption with optimized performance per watt.
- Efficient thermal management to reduce cooling requirements.
- Scalable architecture with high core count for parallel computations at minimal power usage.
4. Modular Scalable Server Processors
- Developed for flexible server infrastructures and hyperscale data centers.
- Support for multi-socket systems to dynamically expand computing capacity, which often requires a highly scalable GIGABYTE motherboard as a basis.
- High PCIe lane and memory channel count for maximum scalability.
- Interconnect technologies allow fast data exchange between multiple CPUs.
Use Cases for Server Processors
- Virtualization & Cloud Computing: Supports multiple virtual machines with high efficiency.
- Big Data & AI: Processors with special instruction sets for machine learning and data analysis.
- Databases & ERP Systems: High single-thread performance for fast transaction processing, ideally complemented by reliable NAS storage drives such as the Seagate IronWolf for backups.
- High-Performance Computing (HPC): Extremely powerful CPUs for scientific calculations, which are often paired with an AMD GPU to deliver maximum performance.
Choosing the Right Server CPU for Your IT Infrastructure
When purchasing a server CPU, consider scalability, core count, memory support, and PCIe capacity to meet future demands. Whether Intel Xeon for enterprise IT, AMD EPYC Processor for HPC, or ARM Server for energy-efficient solutions or AMD Ryzen Server CPUs for small to medium-sized projects – the right choice depends on your specific workloads, regardless of whether you ultimately integrate them into a Supermicro server or a Dell server. Server Hardware offers you powerful CPUs, GPUs, and complete server solutions — buy Servers now and find the right infrastructure for your needs.
Contact us now and buy high-performance server processors with bulk discounts!