- 2U Rackmount Server, up to 350W CPU TDP
- Dual Socket E, Intel Xeon 5th/4th Gen Scalable Processors
- 16x DIMM slots, up to 4TB RAM DDR5-5600MHz
- 3x 3.5 Inch hot-swap drive bays
- 2x PCI-E 5.0 x16 Expansion slots
- via AIOM slots, 2x M.2
- 2x 3000W redundant Power Supplies (Titanium Level)
- 2U Rack Server, up to 205W TDP
- Dual Socket P+, 3rd Gen Intel Xeon Scalable Processors
- 20x DIMM slots (16 DRAM + 4 PMem), bis zu 6TB RAM DDR4-3200MHz
- 6x 2.5 Hot-swap NVMe/SATA/SAS Drive bays (6x 2.5 NVMe hybrid)
- 1x PCI-E 4.0 x16 (LP) slots
- 4x heavy-duty cooling fans
- 2x 2600W redundant Power supplies (Titanium Level)
- 2U Rackmount Server, up to 350W CPU TDP
- Dual Socket E, Intel Xeon 5th/4th Gen Scalable Processors
- 16x DIMM slots, up to 4TB RAM DDR5-5600MHz
- 3x 3.5 Inch hot-swap drive bays
- 2x PCI-E 5.0 x16 Expansion slots
- via AIOM slots, 2x M.2
- 2x 3000W redundant Power Supplies (Titanium Level)
- 2U Rackmount Server, up to 330W CPU TDP
- Dual Socket E2, Intel Xeon 6 6700 Processors with E-cores
- 16x DIMM slots, up to 4TB RAM DDR5-6400MHz
- 3x 3.5 Inch hot-swap drive bays
- 2x PCI-E Gen5 Expansion slot, 1x AIOM
- via AIOM slots, 2x M.2
- 2x 3600W redundant Power Supplies (Titanium Level)
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Up to 1 Add-on card per Node on 4U
- 4U Rackmount Server, up to 280W TDP
- Single Socket SP3, AMD EPYC 7003 Series Processor
- 16x DIMM slots, up to 4TB RAM DDR4-3200MHz
- 8 hot-pluggable Nodes
- 4x 2.5 fixed internal drive bays, 2x M.2 NVMe
- 3x PCI-E 4.0 x16 (2x LP & 1x AIOM) slots
- 4x 2000W redundant Power supplies with PMBus
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Up to 1 Add-on card per Node on 4U
- 4U Rackmount Server, up to 280W TDP
- Single Socket SP3, AMD EPYC 7003 Series Processor
- 8x DIMM slots, up to 2TB RAM DDR4-3200MHz
- 8 hot-pluggable Nodes
- 2x 2.5 NVMe and 4x SATA3 drive bays
- 1x PCI-E 4.0 x16 LP slot & 1x PCI-E 4.0 x8 internal RAID AOC
- 4x 2200W redundant power supplies with PMBus
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8-Node Architecture on 4U
- 4U Rack Server, up to 185W TDP
- Dual Socket P+, 3rd Gen Intel® Xeon® Scalable Processors
- 16x DIMM slots, up to 2TB DDR4 RAM
- 6x 2.5 hot-swap NVMe/SATA/SAS and 6x 2.5 7mm Drive bays
- 1x PCI-E 4.0 x8 LP slot
- 1x 1GbE RJ45 via AIOM (OCP 3.0 Compliant)
- 4x 2200W redundant Power supplies Titanium Level
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Octa Socket, up to 24TB RAM
- 7U Rack Server, 205W TDP
- Octa Intel Xeon Scalable CPU, 2nd. Gen.
- Up to 24TB RAM, DDR4-2933MHz ECC
- 23x PCIe 3.0 slots, up to 39x PCIe 3.0 slots for OEM
- 16x Hot-swap 2.5 SAS3 drive bays
- 1600W (N+2) Redundant power supplies (Titanium Level)
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Hyperconverged System solutions and their Benefits
By implementing a hyperconverged infrastructure, companies can benefit from different system strengths:
- Cost advantages thanks to hyper-convergence Compared to traditional virtualization solutions in conjunction with storage servers or clusters, a hyperconverged infrastructure is significantly less expensive.
- Strong performance within the infrastructure Hyperconverged systems offers low latency and high transfer rates by using DAS (Direct Attached Storage) combined with high system stability.
- Easy scalability of HCIs
Another key benefit of hyperconverged systems is the ability to seamlessly scale horizontally by adding more nodes to the cluster. This allows both storage and computing resources to be expanded as needed without encountering bottlenecks.
Many virtualization solutions now offer the inherent ability to form on-host storage clusters, eliminating the need for expensive external SAN hardware.
HCI: Infrastructure for Hyperconverged Systems
Microsoft Storage Spaces Direct - S2D
In the Data Centre editions of the current Windows servers, Microsoft also took a hyperconverged storage approach by integrating the option for creating storage pools across hosts. With automatic tiering and caching on low latency NVMe Drives, Hyper-V with Storage Spaces Direct is a cost-effective alternative for hyperconverged virtualization clusters.
Together with SuperMicro, HAPPYWARE offers you certified appliances for Microsoft S2D deployments. In addition, we also provide individually configured and optimized systems to meet your requirements.
In many cases, however, it makes sense to use established software-defined storage products such as SANsymphony-V from DataCore - in particular for business-critical data and applications.
Hyper-convergence with SDS
In many cases, however, it makes sense to use established software-defined storage products such as SANsymphony-V from DataCore - in particular for business-critical data and applications.
Depending on the type of hypervisor used, the software can be installed directly on the host or alternatively run in a virtual machine (VM). In addition to the extended functional scope of the storage software, you have access to DataCore Enterprise Support at any time and can therefore establish a strong foundation for your business.
DataCore setups are also planned individually in hyperconverged deployments and installed on site. This means that your administrators will be immediately familiar with the environment.
Hyperconverged systems and their setup - Support by HAPPYWARE
To avoid bottlenecks in operation, a hyperconverged setup requires detailed planning, regardless of the preferred solution. Choosing the best network and system components can be critical to the performance of a cluster.
At HAPPYWARE, we help you find and configure a hypervisor that fits your needs and your budget. Benefit from our experience and support.