Multi Node Servers – Space-Saving, High-Performance & Future-Proof
Multi Node Servers Prices
Supermicro
SYS-211GT-HNC8F Supermicro SuperServer Single Xeon Scalable 5th Gen 2U Server
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Complete System Only
Supermicro
AS-2115GT-HNTR Supermicro AS Single EPYC 9004 2U Server
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Supermicro
SYS-211TP-HPTR Supermicro SuperServer Single supports Xeon Scalable 2U Server Barebone
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Supermicro
SYS-621BT-DNTR Supermicro SuperServer Dual Xeon Scalable 4th Gen 2U Server
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Supermicro
SYS-222BT-HNC8R Supermicro SuperServer Dual Xeon 6500 w/ P-cores 2U Server
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Supermicro
SYS-211GT-HNTF Supermicro SuperServer Single Intel® Xeon® CPU Max Series 2U Enterprise Server/Server
Out of stock
Complete System Only
Supermicro
SYS-222BT-HNR Supermicro SuperServer Dual Xeon 6500 w/ P-cores 2U Server
Out of stock
Complete System Only
Supermicro
SYS-621BT-HNC8R Supermicro SuperServer Dual Xeon Scalable 4th Gen 2U Server
Out of stock
Complete System Only
Supermicro
AS-3015MR-H5TNR Supermicro AS Single EPYC 4004 3U Server
Out of stock
Complete System Only
Supermicro
SYS-211SE-31A Supermicro SuperServer Single Xeon Scalable 4th Gen 2U Server Barebone
Out of stock
Supermicro
SYS-222BT-DNR Supermicro SuperServer Dual Xeon 6500 w/ P-cores 2U Server
Out of stock
Complete System Only
Supermicro
SYS-221BT-HNC8R Supermicro SuperServer Dual supports Xeon Scalable 2U Server Barebone
Out of stock
Complete System Only
Supermicro
SYS-222FT-HEA-ALC Supermicro SuperServer Dual Xeon 6900 w/ P-cores 2U Server
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Complete System Only
Supermicro
SYS-622BT-DNC8R Supermicro SuperServer Dual Xeon 6500 w/ P-cores 2U Server
Out of stock
Complete System Only
Supermicro
SYS-222FT-HEA-LCC Supermicro SuperServer Dual Xeon 6900 w/ P-cores 2U Server
Out of stock
Complete System Only
Supermicro
SYS-222BT-HNC9R Supermicro SuperServer Dual Xeon 6500 w/ P-cores 2U Server Barebone
Out of stock
Complete System Only
Supermicro
SYS-222BT-HNR-LCC Supermicro SuperServer Dual Xeon 6500 w/ P-cores 2U Server
Out of stock
Complete System Only
Supermicro
SYS-221BT-DNTR Supermicro SuperServer Dual Xeon Scalable 4th Gen 2U Server
Out of stock
Complete System Only
Gigabyte
H263-S64-IAW1 Gigabyte Dual Xeon CPU Max 2U 6NH263S64DR000IBW1 Server Barebone
Out of stock
Supermicro
AS-2126FT-HE-ALC Supermicro AS Dual EPYC 9005 2U Server
Out of stock
Complete System OnlyCan't find the right product from "Multi Node Servers"?
Frequently Asked Questions about Node Servers:
The topology determines how Server Nodes communicate with each other. In Twin architectures, nodes share the chassis and power supply but operate independently, making them ideal for multi-tenant workloads. In interconnected Multi Node Servers with shared interconnects (e.g., UPI/QPI or Infinity Fabric), memory and CPU communication can be optimized—critical for HPC and parallel data processing. NUMA configurations also impact latency and memory bandwidth.
Shared PSU designs use a common redundant power supply, typically offering higher energy efficiency through better utilization and reduced power loss. Dedicated PSU designs per node provide fine-grained control and isolated power management. In high-availability setups, a combination of both approaches is often used to balance redundancy and energy efficiency.
Out-of-band management support, such as IPMI, Redfish, or proprietary tools (e.g., Supermicro IPMIView), is essential. For Multi Node Servers, it’s recommended to have a dedicated BMC per node and an aggregated management interface for the chassis. Features like BIOS updates without reboot, node failover, fan curve control, and per-node power capping greatly enhance maintenance and operational stability.
In principle, yes—provided the chassis, motherboard, and BMC support different platforms. Some vendors allow nodes within the same Multi Node framework to use Intel Xeon, AMD EPYC, or even ARM processors. This is useful for heterogeneous workloads (e.g., databases + AI inference). Key considerations include BIOS compatibility, management interfaces, and cooling requirements for all CPU types.
Leading Node Servers: Supermicro Twin and MicroCloud
The development of Node Servers has been largely driven by technology leaders such as Supermicro, whose architectures are now considered the industry standard for dense and efficient server systems. These server systems provide optimized solutions for nearly every use case.
- Supermicro Twin Server Solutions: Supermicro’s award-winning Twin Servers are the epitome of dense computing for high-performance workloads. In a 2U chassis, up to four (2U4N) high-performance, hot-swappable Server Nodes are typically housed. Each node can be individually configured with high-end CPUs such as Intel Xeon Scalable or AMD EPYC Genoa processors, large amounts of RAM, and dedicated drive bays (e.g., for NVMe SSDs). These Twin Server Solutions are perfectly suited for demanding, compute-intensive tasks like virtualization, cloud services, and data-intensive analytics.
- Supermicro MicroCloud Server Systems: The MicroCloud Server System is another innovative multi-node architecture designed for maximum density in specific workloads. These systems are often optimized for applications that require a high number of parallel but less I/O-intensive servers, such as web hosting, caching layers, dedicated hosting, or edge computing. The flexibility of these platforms is further demonstrated by their support for a wide range of processors, from energy-efficient Intel Xeon CPUs to high-performance AMD EPYC series for specialized workloads.
Advantages & Technical Features of Server Nodes
Multi Node Servers not only offer a more compact form factor than traditional single servers but also provide numerous technical advantages specifically optimized for high-performance and scalable environments:
- Space & Energy Efficient: Multiple nodes in a single chassis significantly reduce rack space requirements while lowering power and cooling costs.
- Centralized Infrastructure: Shared power supplies, cooling, and sometimes network components improve energy efficiency and simplify maintenance. Furthermore, consolidating multiple nodes reduces the complexity of the cabling to the central Ethernet switch.
- Independent Operation: Each node functions as a fully-fledged server with its own CPU, RAM, storage, and network connection – ideal for multi-tenant or redundant setups.
- High Density: Typical configurations like 3U/12N allow up to 12 independent servers in a single chassis.
- Support for Modern Platforms: Compatible with Intel® Xeon® or AMD EPYC™ – including support for PCIe Gen5, Enterprise NVMe SSDs, Server SSD, M.2 storage, and more.
- Flexible Configurability: RAM, storage (e.g., JBOD), GPU accelerators, or network options can be individually customized per node.
For environments requiring numerous server instances – such as virtualization, high-availability setups, or CI/CD pipelines – Multi Node Servers are ideal due to their high density and flexibility. They therefore offer a space-saving alternative to traditional data centre servers, without compromising on processing power.
Technological Components of Multi Node Servers
Multi Node Servers excel in modularity and adaptability. Each node can be equipped with separate components – from processors to RAM, storage, and network interfaces. This makes the systems especially flexible for workload requirements and future scaling, so that you can also install a specific SAS HDDs or several server HDDs if required.
- Processors – Support for Intel® Xeon® Scalable and AMD EPYC™ (e.g., Genoa).
- Memory – Up to 2 TB RAM per node, depending on socket and motherboard layout.
- Storage – Combination of NVMe, SAS SSD, and SATA drives, M.2 slots for boot drives. Depending on requirements, a dedicated RAID controller ensures data security, whilst a host bus adapter enables efficient connection to external storage environments.
- Network – High-speed interfaces such as 10G, 25G, or 100G LAN via OCP or proprietary mezzanine cards.
- Redundant Power Supply – Shared or node-specific PSUs, depending on the design.
- Cooling – Thermally optimized airflow, sometimes with direct-to-chip liquid cooling (for HPC setups).
Especially in High-Performance Computing (HPC) and cloud infrastructure, these configurations allow systems to be tailored precisely to the application – without wasting resources.
Server Hardware – Solutions That Grow with Your Business
Server hardware represents uncompromising performance, certified quality, and well-thought-out system solutions. Choosing from our range means opting for Node Servers selected for stability, scalability, and longevity.
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Maximize density and efficiency with our high-performance Multi Node Servers. We offer a wide selection of scalable Twin and MicroCloud systems designed for modern data center requirements. Order now!