Optimised for web server, cloud computing and data centre use. AMD EPYC 9004 Series Processor. Dual Redundant power supply. 4x 3.5/2.5" hot-swap hybrid NVMe/SATA/SAS drive bays
Optimised for web server, cloud computing and data centre use. AMD EPYC 9004 Series Processor. Dual Redundant power supply. 10x 2.5" hot-swap hybrid NVMe/SATA/SAS drive bays
Optimised for Virtualisation, AI, Machine Learning, Cloud Computing and Enterprise Server. AMD EPYC 9004 Series Processor. Dual Redundant power supply. 12x 3.5/2.5" hot-swap NVMe/SATA/SAS drive bays
Optimised for web server, cloud computing and data centre use. AMD EPYC 9004 Series Processor. Dual Redundant power supply. 12x 3.5/2.5" hot-swap SATA/SAS drive bays, 4x 3.5" NVMe hybrid drives
Optimised for Virtualisation, AI, Machine Learning, Cloud Computing and Enterprise Server. AMD EPYC 9004 Series Processor. Dual Redundant power supply. 12x 2.5" hot-swap hybrid NVMe/SATA/SAS drive bays
Optimised for Virtualisation, AI, Machine Learning, Cloud Computing and Enterprise Server. AMD EPYC 9004 Series Processor. Dual Redundant power supply. 24x 2.5" hot-swap NVMe/SATA/SAS drive bays
Single AMD EPYC 9004 Series Processor. 2x PCIe 5.0 x16 FH slot, Redundant 1600W power supply. 16x E3.S NVMe hot-swappable drive bays.
Optimised for Virtualisation, AI, Machine Learning, Cloud Computing and Enterprise Server. Dual AMD EPYC 9004 Series Processor. Dual Redundant power supply. 12x 2.5" hot-swap hybrid NVMe/SATA/SAS drive bays
Single AMD EPYC 9004 Series Processor. 2x PCIe 5.0 x16 FH slot, Redundant 2000W power supply. 32x E3.S NVMe hot-swappable drive bays.
Optimised for Virtualisation, AI, Machine Learning, Cloud Computing and Enterprise Server. AMD EPYC 9004 Series Processor. Dual Redundant power supply. 12x 3.5"/2.5" hot-swap NVMe/SATA/SAS drive bays
Optimised for Virtualisation, AI, Machine Learning, Cloud Computing and Enterprise Server. AMD EPYC 9004 Series Processor. Dual Redundant power supply. 24x 2.5" hot-swap NVMe/SATA/SAS drive bays
Optimised for High Performance Computing, AI, Deep Learning and Industrial Automation. AMD EPYC 9004 Series Processor. 3000W Redundant power supply. 24x 2.5" hot-swap NVMe/SATA drive bays
Optimised for High Performance Computing, AI and Deep Learning. AMD EPYC 9004 Series Processor. 2000W Redundant power supply. 24x 2.5" hot-swap NVMe/SATA/SAS drive bays
Ideal for HPC, MEC, Cloud Gaming, Multi-purpose CDN, High-availability Cache Cluster and EDA. Quad Node 2U Form Factor. Redundant 2200W Power Supply, 4x 2.5" hot-swap NVMe/SATA drive bays (Per Node)
Optimised for High Performance Computing, AI and Deep Learning. Dual AMD EPYC 9004 Series Processor. 2000W Redundant power supply. 24x 2.5" hot-swap NVMe/SATA/SAS drive bays
Ideal for HPC, MEC, Cloud Gaming, Multi-purpose CDN, High-availability Cache Cluster and EDA. Quad Node 2U Form Factor. Redundant 2200W Power Supply, 6x 2.5" hot-swap NVMe/SATA drive bays (Per Node)
Optimised for High Performance Computing, AI, Deep Learning and Industrial Automation. AMD EPYC 9004 Series Processor. 3000W Redundant power supply. 24x 2.5" hot-swap NVMe/SATA drive bays
for 64 core processors
for the equivalent performance
than any competitive x86 server CPU
compared to competition
AMD EPYC™ 9004 Series Processors
• Up to 96 "Zen 4" Cores
• 12-channel DDR5 with ECC up to 4800MHz with Advanced Memory Device Correction (AMDC) and 1 DIMM per channel support
• 6TB maximum memory supported(based on 2 socket systems and 256GB 3DS RDIMMs with 1 DIMM per channel support)
• PCIe 5.0 up to 160 lanes (4U GPU system)
• Next Generation Reliability, Availability, and Serviceability (RAS)
Workload Optimised Systems with Open Architectures
• Vast I/O, storage, networking and expansion slot options for maximum versatility
• Flexibile networking options with Advanced I/O Modules (AIOMs), up to 400Gbps throughput per card and OCP 3.0 support
• Market-leading GPU optimised servers for large scale AI/ML and HPC workloads
• Compute Express Link (CXL 1.1+) peripheral support including memory expansion through PCIe 5.0 lanes
Increased Operational Efficiency
• Tool-less chassis design
• Rear and Front I/O options
• Hot-swappable nodes with shared power for multi-node system
• Titanium level redundant power supplies
• Efficient resource-saving multi-node designs with shared power and cooling.
Supermicro's latest H13 product range allows organisations to fully leverage AMD's newest CPUs. With server options ranging from a single processor to the latest in blade technology. These servers can have up to an impressive 96 cores per socket, making them perfect for various workloads.
With the improved memory capacity and performance of the memory sub-system, applications can access data at a faster rate. Additionally, the increased core count numbers and clock rates result in quicker time-to-solution and greater performance per watt.
The H13 lineup from Supermicro are designed for workloads that span from the Edge to the data centre.
High-Performance Computing (HPC) - HPC systems are no longer limited to use by university and national lab researchers, as enterprises are now incorporating them into their everyday workflows to accelerate product development and discovery of new vaccines and drugs. HPC systems typically demand fast cores, substantial memory capacity, and high-speed networking between individual units.
Cloud Computing - Designing and implementing a cloud solution necessitates a diverse array of optimised products tailored to different workloads, not just for environments where the price performance of the compute aspect is most important. Storage and networking are also crucial components in ensuring a productive and cost-effective cloud data centre.
Artificial Intelligence (AI) - As AI uses continue to expand, systems that feature fast CPUs and dedicated GPU subsystems are becoming increasingly necessary. Supermicro H13 servers are specifically designed to support AI applications, boasting the capacity to accommodate up to 10 GPUs within a 4U rack height. This unique design enables faster training and inference applications, resulting in optimal performance. Supermicro's servers are expertly crafted to support a significant number of GPUs, thus providing maximum AI application performance.
Big Data Analysis - As data generation continues to surge across various domains, systems must have the capacity to access, analyse, and present structured and unstructured data to users. Achieving these objectives demands the ability to store an ever-growing volume of data in memory, fast computation, and quick data communication to GPUs, if necessary.
Virtualisation - As many enterprises use virtualisation technologies to maximize their use of existing servers, the new Supermicro H13 servers, equipped with 4th Gen AMD EPYC processors, offer higher-powered virtualisation machines. This is possible due to the availability of more cores and faster CPUs, providing the necessary resources to handle more demanding workloads.
Enterprise - The new Supermicro H13 systems offer increased performance and reduced costs, which can benefit typical enterprise workloads. Furthermore, existing workloads will run faster while consuming less power than previous generations of Supermicro servers.
The H13 Supermicro server range of single and dual processor servers powered by AMD’s latest AMD EPYC 9004 series server processor come with the introduction of the most technologically advanced DDR5 RAM. DDR5 doubles memory density whilst greatly improving reliability at a time when data centre system architects seek to supply rapidly growing processor core counts with increased memory bandwidth and capacity.
The H13 Supermicro server range of server solutions built around AMD’s latest generation of EPYC processor brings the much anticipated PCIe5 with it. This doubles the theoretical limitations of I/O over PCIe 4 – boosting bandwidth from 64GB/s to 128GB/s and frequency from 16GHz to 32GHz.
Alle Broadberry Server- und Storage-Lösungen durchlaufen vor dem Versand aus unserem Lagerhaus einen 48-stündigen Testlauf. In Kombination mit diesem Prüfverfahren sowie den hochqualitativen, branchenführenden Komponenten stellen wir sicher, dass all unsere Server- und Storage-Lösungen den strengsten Qualitätsrichtlinien entsprechen, die an uns gestellt werden.
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