2nd Generation Intel Xeon Scalable series - AMD EPYC 3000 series - AMD EPYC 8004 series - AMD Ryzen 7000 series - Ampere Altra series - Intel Atom C series - Intel Xeon 6 series - Intel Xeon W series - Intel Xeon W-3000 series - NVIDIA Grace Hopper series - NVIDIA Grace series - Rackmount servers
Discover our extensive selection of rack servers, ranging from 1U up to 10U, each designed to deliver the highest levels of performance, flexibility, scalability, and serviceability in datacenters. Our rackmount servers are engineered to handle a variety of workloads and applications, making them the backbone of modern enterprise and data center operations.
Key Advantages:
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Versatile Performance: From 1U to 10U configurations, our servers are built to provide powerful and efficient performance for everything from basic applications to intensive computing tasks.
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Flexible and Scalable: Easily configurable to meet the growing and changing demands of your business, our rack servers can scale to support increased workloads and expanded storage needs.
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Wide Application Range: Ideal for a multitude of Enterprise and Data Center applications, including Virtualization, Big Data, Analytics, and Cloud Computing, ensuring that your infrastructure is future-proof.
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Common Platform: As the most commonly used servers, rackmount units offer unlimited setup variations to perfectly align with your specific requirements.
With our rack servers, you can ensure your operations run smoothly and efficiently, meeting the demands of today while preparing for the challenges of tomorrow. Explore our selection and find the perfect solution to drive your enterprise forward.
Ampere Altra processors are gaining traction in hyperscale cloud environments and edge computing solutions, thanks to their power-efficient ARM architecture. These processors offer an impressive core density and are optimized for parallel processing tasks, making them ideal for workloads that involve high-throughput computing and containerized applications.
AMD Ryzen 7000 processors are well-suited for both gaming rigs and productivity workstations, offering a balanced mix of performance and energy efficiency. Leveraging advanced architecture and supporting high-speed memory, these processors excel in tasks ranging from content creation to machine learning, providing a competitive edge in multi-threaded applications.
AMD EPYC 3000 series processors are designed for embedded, networking, and storage applications, offering a balance of performance and power efficiency. These processors excel in use-cases like edge computing, industrial IoT, and specialized server applications, bringing the benefit of high core counts and robust security features to more compact and energy-sensitive environments.
The AMD EPYC 8004 series processors are engineered to meet the demands of high-performance computing environments, offering exceptional multi-threaded performance for data analytics, virtualization, and cloud computing. These processors provide an efficient and cost-effective solution for enterprise-level tasks, featuring high throughput and advanced security features, thereby optimizing both performance and TCO (Total Cost of Ownership).
The Intel Xeon W-3000 series processors are engineered for workstation applications, offering robust performance and support for advanced computing tasks such as 3D rendering and scientific simulations. With features like ECC memory support and enhanced security protocols, these CPUs are well-suited for professionals in fields like architecture, engineering, and content creation who require high reliability and computational power.
2nd Gen Intel Xeon Scalable processors are commonly deployed in enterprise-level data centers and for cloud services, offering robust performance and scalability for various computing needs. With advanced features like Intel Optane DC persistent memory and hardware-based security, these processors are designed to accelerate data-intensive tasks and offer enhanced reliability.
The NVIDIA Grace CPU is the first data center CPU developed by NVIDIA. By combining NVIDIA expertise with Arm processors, on-chip fabrics, system-on-chip (SoC) design, and resilient high-bandwidth low-power memory technologies, the NVIDIA Grace CPU was built from the ground up to create the world’s first superchips for computing. At the heart of the superchip lies the NVLink Chip-2-Chip (C2C) that allows the NVIDIA Grace CPU to communicate at 900 GB/s bidirectional bandwidth with another NVIDIA Grace CPU.
The Intel Xeon 6 processors technology gives you a single platform with processor options focusing on high performance for AI and compute intense workloads, exceptional efficiency, or cloud scalability.
The NVIDIA Grace Hopper™ architecture brings together the groundbreaking performance of the NVIDIA Hopper™ GPU with the versatility of the NVIDIA Grace™ CPU in a single superchip, connected with the high-bandwidth, memory-coherent NVIDIA® NVLink® Chip-2-Chip (C2C) interconnect.
Intel Atom C processors are designed for low-power, high-density microservers and are often deployed in data centers for lightweight, cloud-based applications and networking tasks. The processors offer a cost-effective and energy-efficient solution, making them ideal for companies looking to maximize performance per watt for tasks like web hosting, content delivery, and cold storage.
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SuperServer SYS-1019P-FRN2T
Multi-Access Edge Computing (MEC)
Centralized/Cloud Radio Access Network (C-RAN)
Universal Customer Premise Equipment (uCPE)
Advanced Network Security
Network Function Virtualization (NFV)
Artificial Intelligence (AI) on Edge, Machine Learning (ML)2 050.51 € -
IoT SuperServer SYS-110C-FHN4T
Compact 1U Network Security
Video Surveillance
Office Server, DVR/NVR
Digital Signage, POS1 326.54 € -
GPU System ARS-111GL-NHR
High Performance Computing
AI/Deep Learning Training and Inference
Large Language Model (LLM) and Generative AI38 973.21 € -
GPU System ARS-111GL-DNHR-LCC
High Performance Computing
AI/Deep Learning Training and Inference
Large Language Model (LLM) and Generative AI75 783.87 € -
GPU System ARS-221GL-NR
High Performance Computing
AI/Deep Learning Training
Large Language Model (LLM) Natural Language Processing
General purpose CPU workloads, including analytics, data science, simulation, HPC, application servers, and more32 206.55 € -
MegaDC SuperServer ARS-110M-NR-EU
Enterprise Server
Hyperscale Data Center
Front End Server
Infrastructure3 867.88 € -
Hyper SuperServer SYS-112H-TN
Virtualization
Financial
Scale Out All-Flash NVMe Storage
Data Center Enterprise Applications
Cloud Computing
AI Inference
CDN/vCDN/Cloud CDN6 511.71 € -
Hyper SuperServer SYS-122H-TN
Virtualization
Software-defined Storage
High Performance Computing
Cloud Computing
Enterprise Server10 409.92 € -
Hyper SuperServer SYS-212H-TN
Virtualization
Software-defined Storage
AI Inference and Machine Learning
Cloud Computing
Enterprise Server
Data Center Optimized
Database Processing and High Density Storage7 071.87 € -
Hyper SuperServer SYS-222H-TN
Virtualization
Software-defined Storage
High Performance Computing
Cloud Computing
Enterprise Server0.00 € -
GPU System ARS-121L-DHR
High Performance Computing
Hyperscale Cloud Applications
Data Analytics32 252.40 € -
BigTwin SuperServer SYS-222BT-HNC8R - 4 nodes
Container-as-a-Service
Application Accelerator
Diskless HPC Clusters
All-Flash Hyperconverged Infrastructure36 859.55 € -
BigTwin SuperServer SYS-222BT-HNC9R - 4 nodes
Mission Critical HPC
Virtualized Big Data Analytics
High-Density Storage RAID Array38 143.13 € -
BigTwin SuperServer SYS-222BT-HNR - 4 nodes
All-Flash NVMe Hyperconverged Infrastructure
Container-as-a-Service
Application Accelerator
High-Performance File System
Diskless HPC Clusters36 383.30 € -
BigTwin SuperServer SYS-622BT-DNC8R - 2 nodes
Hyperconverged Infrastructure
Scale-Out Object Storage
Back-up & Recovery19 602.12 €
What is a Rackmount Server?
- A rackmount server, also known as a rack server, is a computer designed to function as a server and be installed in a rack. The rack contains multiple mounting slots called bays, each designed to hold a hardware unit secured in place with screws. Multinode servers are often deployed in these racks to maximize efficiency and resource utilization.
How to Choose a Rackmount Server
- When choosing a rackmount server, consider factors such as performance requirements, scalability, and budget. Determine the necessary CPU power, memory, and storage capacity based on your workload. Additionally, evaluate the rack space available and the cooling requirements to ensure optimal server performance.
What Does 1U, 2U, 3U, 4U Mean?
- The terms 1U, 2U, 3U, and 4U refer to the height of the server in rack units (U). Each "U" is equivalent to 1.75 inches. A 1U server is 1.75 inches tall, a 2U server is 3.5 inches tall, and so on. These measurements help in understanding how much space the server will occupy in the rack.