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Expandable up to 12x 2.5" hybrid slots
- 1U Rackmount Server, up to 270W TDP
- Dual Socket P+, 3rd Gen Intel Xeon Scalable processors
- 32x DIMM slots, up to 12TB RAM DDR4-3200MHz
- 8x 2.5 hot-swap NVMe/SATA/SAS drive bays
- 3x PCI-E 4.0 x16 slots with support for GPU/Accelerator cards
- Flexible networking options with 1x AIOM networking slot
- 2x 1200W redundant power supplies with PMBus
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32 DIMMs, bis zu 8TB RAM
- 2U Rackmount Server, up to 280W TDP
- Dual AMD EPYC™ 7003/7002 Series Processors
- 32x DIMM slots, up to 8TB RAM DDR4-3200MHz
- 12x 3.5 hot-swap Drive bays
- Dual 10GBase-T LAN ports via Intel® X710-AT2
- Integrated IPMI 2.0 + KVM with dedicated LAN
- 1600W Redundant Power supplies Titanium Level (96%+)
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NVMe All-Flash
- 2U Rackmount Server, up to 280W TDP
- Single Socket SP3, AMD EPYC™ 7003/7002 Series Processors
- 16x DIMM slots, up to 4TB RAM DDR4-3200MHz
- 24x 2.5 Inch U.2 NVMe hot-swap drive bays
- 2x 10GBase-T LAN via Broadcom BCM57416
- 2x PCI-E 4.0 x16 FH/HL slots
- 2x 1200W redundant power supplies (Titanium Level)
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Up to 6 Full High cards on 2U
- 2U Rack Server, 205W TDP
- Dual Intel Xeon Scalable CPU, 2nd Gen.
- Up to 6TB RAM, DDR4-2933MHz ECC
- 24x Hot-swap 2.5 Inch drive bays
- 5x PCI-E 3.0 x8 slots
- 1600W Redudant power supplies (Titanium Level)
- 1U Rackmount Server, up to 350W TDP
- Dual Socket E, 4th Gen Intel Xeon Scalable Processors
- 32x DIMM slots, up to 8TB RAM DDR5-4800MHz
- 8x 2.5 Inch hot-swap drive bays
- 3x PCI-E 5.0 x16 Expansion Slots
- 1x AIOM slot, 1x BMC LAN port
- 2x 1200W redundant Power supplies (Titanium Level)
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32 DIMM Slots, Up to 8TB RAM
12x U.3 Hybrid Slots
- 2U Rackmount Server, up to 270W
- Dual Socket P+, 3rd Gen Intel Xeon Scalable Processors
- 32x DIMM slots, up to 12TB RAM DDR4-3200MHz
- 12x 3.5 Inch NVMe/SATA/SAS hot-swap drive bays
- 4x PCI-E Gen4 FH and 4x optional PCI-E Gen4
- 4x heavy duty hot-swap fans with fan speed control
- 1200W Redundant Power Supplies with PMBus
- 1U Rack Server, 145W TDP
- Dual Intel Xeon Scalable CPU, 2nd Gen.
- Up to 4TB RAM, DDR4-2933MHz ECC
- Network support via SIOM
- 1000W Redundant power supplies (Titanium Level)
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24 U.3 Hybrid Slots
- 2U Rackmount Server, up to 270W TDP
- Dual Socket P+, 3rd Gen Intel Xeon Scalable Processors
- 32x DIMM slots, up to 12TB RAM DDR4-3200MHz
- 24x 2.5 hot-swap NVMe/SATA/SAS drive bays
- Up to 8x PCI-E 4.0 x8 slots
- 2x AIOM Networking slots, 4 GPUs
- 2x 1600W Redundant Power Supplies with PMBus
- 1U Rackmount Server, up to 256 Cores
- Dual Socket SP5, AMD EPYC 9004 Series Processors
- 24x DIMM slots, up to 6TB RAM DDR5-4800MHz
- 8x 2.5 Inch hot-swap drive bays
- 3x PCI-E 5.0 x16 Expansion Slots, 1x AIOM
- 1x IPMI LAN port
- 2x 1200W redundant Power supplies (Titanium Level)
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Quad Socket Server
- 2HE Rackmount server, up to 165W TDP
- Quad Socket P, 2nd Gen Intel Xeon Scalable Processors
- 48x DIMM slots, up to 12TB RAM DDR4-2933MHz ECC
- 24x 2.5 Inch hot-swap drive bays
- 11x PCI-E 3.0 slots
- 2x 1600W redundant power supplies (Titanium Level)
- 2U Rackmount Server, up to 256 Cores
- Dual Socket SP5, AMD EPYC 9004 CPU
- 24x DIMM slots, up to 6TB RAM DDR5-4800MHz
- 12x 3.5 Inch hot-swap drive bays
- 1x AIOM/OCP NIC 3.0 Networking slots, 4 GPUs
- up to 12x PCIe Gen5 Expansion Slots
- 2x 1600W redundant Power Supplies (Titanium Level)
- 3U Rackmount Server, up to 205W TDP
- Dual Socket P, 2nd Gen Intel Xeon Scalable Processors
- 16x DIMM slots, up to 4TB RAM DDR4-2933MHz ECC
- 16x 3.5 hot-swap SAS3/SATA3 drive bays
- 7x PCI-E 3.0 slots
- 2x 10GBase-T LAN ports with Intel X722 + PHY Intel X557
- 2x 1200W redundant power supplies (Titanium Level)
- 2U Rackmount Server, up to 256 Cores
- Dual Socket SP5, AMD EPYC 9004 Processors
- 24x DIMM slots, up to 6TB RAM DDR5-4800MHz
- 24x 2.5 Inch hot-swap drive bays
- 1x AIOM/OCP NIC 3.0 Networking slots
- up to 12x PCIe Gen5 Expansion Slots
- 2x 1600W redundant Power Supplies (Titanium Level)
- Rack/Full-Tower Server, up to 350W CPU TDP
- Dual Socket E, 5th/4th Gen Intel Xeon Scalable Processors
- 16x DIMM slots, up to 4TB RAM DDR5-4400MHz
- 8x 3.5 hot-swap NVMe/SATA/SAS drive bays
- 7x PCI-E 5.0 x16 Expansion slots
- 2x 10GbE LAN ports, up to 4x GPUs
- 2x 2000W redundant Power Supplies (Titanium Level)
- 2U Rackmount Server, up to 350W TDP
- Dual Socket E, 4th Generation Intel Xeon Scalable CPU
- 32x DIMM slots, up to 8TB RAM DDR5-4800MHz
- 12x 3.5/2.5 + 2x 2.5 Inch hot-swap drive bays
- 2x 1GbE RJ45 LAN ports
- 8x PCI-E Gen5 Expansion slots, 2x OCP 3.0
- 2x 2000W redundant Power Supplies (Platinum Level)
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All Flash NVMe
- 2U Rackmount Server, up to 205W TDP
- Dual Socket P, 2nd Gen Intel Xeon Scalable Processors
- 24x DIMM slots, up to 6TB RAM DDR4-2933MHz ECC
- 24x 2.5 Inch hot-swap drive bays (20x NVMe)
- 1 PCI-E 3.0 x8 slots
- 2x 25G SFP28 Ethernet ports
- 2x 1600W redundant power supplies (Titanium Level 96%)
- 2U Rackmount Server, up to 350W TDP
- Dual Socket E, 5th/4th Gen Intel Xeon Scalable Processors
- 32x DIMM slots, up to 8TB RAM DDR5-4400MHz
- 8x 2.5 hot-swap NVMe/SATA/SAS drive bays
- Up to 8x PCI-E 5.0 x8 slots — optional
- 2x AIOM Networking slots, 4 GPUs
- 2x 1200W redundant Power Supplies (Titanium Level)
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4 GPU on 1U
- 1U Rackmount Server, up to 165W TDP
- Dual Socket P, 2nd Gen Intel Xeon Scalable Processors
- 12x DIMM slots, up to 3TB RAM DDR4-2933MHz ECC
- Up to 4x GPUs
- 2x 2.5 Inch hot-swap and 2x 2.5 fixed internal drive bays
- 6x PCI-E 3.0 x16 slots
- 2x 2000W redundant power supplies (Titanium Level 96%)
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4x M.2 per Node
- 2U Rackmount Server, up to 280W TDP/cTDP
- Single Socket SP3, AMD EPYC 7003 Series Processors
- 8x DIMM slots, up to 2TB RAM DDR4-3200MHz
- 3x 3.5 hot-swap SATA3 drive bays
- 2x PCI-E 4.0 x16 LP slots
- 4x heavy-duty 8cm PWM fans
- 2000W redundant Power Supplies with PMBus (Titanium Level)
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Multi-Node GPU Server
Up to 3 PCI-E GPUs per Node
- 2U Rackmount Server, up to 270W TDP
- Single Socket P+, 3rd Gen Intel Xeon Scalable Processors
- 8x DIMM slots, up to 2TB RAM DDR4-3200MHz
- 2x 2.5 Inch hot-swap NVMe drive bays
- 3x PCI-E 4.0 x16 FHFL DW slots
- 2x M.2 slots and AST2500 BMC
- 2x 2600W redundant power supplies (Titanium Level)
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All-NVMe Storage Server
- 2U Rackmount Server, up to 205W TDP
- Dual Socket P, 2nd Gen Intel Xeon Scalable Processors
- 24x DIMM slots, up to 6TB RAM DDR4-2933MHz ECC
- 24x 2.5 Inch hot-swap NVMe drive bays
- 2x PCI-E 3.0 x16 and 1x PCI-E 3.0 x8 slots
- 4x 10GBase-T LAN ports with Intel X550
- 2x 1600W redundant power supplies (Titanium Level)
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Integrated SAS HBA
- 2U Rackmount Server, up to 205W TDP
- Dual Socket P, 2nd Gen Intel Xeon Scalable Processors
- 24x DIMM slots, up to 6TB RAM DDR4-2933MHz ECC
- 2x hot-pluggable nodes
- 6x 3.5 hot-swap drive bays
- 2x PCI-E 3.0 x8, 1x PCI-E 3.0 x16 & 1x SIOM card support
- 2x 2200W redundant power supplies (Titanium Level)
- 2U Rackmount Server, up to 165W TDP
- Dual Socket P, 2nd Gen Intel Xeon Scalable Processors
- 16x DIMM slots, up to 4TB RAM DDR4-2933MHz ECC
- 4x hot-pluggable nodes
- 3x 3.5 hot-swap SATA drive bays
- 2x PCI-E 3.0 x16 slots and 1x SIOM card support
- 2x 2200W redundant power supplies (Titanium Level)
- 2U 4-Node Rack Server, up to 165W TDP
- Dual Socket P, 2nd Gen Intel Xeon Scalable Processors
- 16x DIMM slots, up to 4TB RAM DDR4-2933MHz ECC
- 6x 2.5 Inch hot-swap SATA3 drive bays
- 2x PCI-E 3.0 x16 slots and 1x SIOM card support
- Flexible Networking support via SIOM & dedicated IPMI 2.0
- 2x 2200W redundant power supplies (Titanium Level)
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What is server virtualization?
Server virtualization is used to provide systems or applications with hardware or hardware resources virtually. The system can work with this virtual hardware in the same way as with actual physical hardware.
In each virtual machine (VM), a separate operating system is installed and only the hardware is shared. This results in independent environments that can be configured with different settings. Virtual machines are also called logical partitions, logical domains, or kernel-based virtual machines.
What are the advantages of server virtualization?
Companies can use server virtualization in a variety of ways to leverage their resources more efficiently and save money in the long run:
- Fully utilized hardware resources
- Easy configuration
- Efficient allocation of resources
- More space and lower electricity needs
- Free choice of hardware
- New space for old applications
Server Virtualization: The Three Most Common Approaches to Virtualization
There are a number of different approaches in order to implement server virtualization. These different methods are often also used simultaneously by the virtualization solutions and combined with each other. This depends on the support of the guest OS, the hardware support, and the respective settings.
- Software Virtualization Software virtualization does not impose any special requirements on the hardware. Storage protection mechanisms are used to prevent interference caused by overlaps. I/O accesses to devices are intercepted and passed from the software of the host to the hardware. In this form of server virtualization, the hypervisor simulates the devices by analyzing the operating system code.
- Hardware Virtualization Hardware virtualization uses special instruction sets of the CPU or I/O devices. These must, of course, be supported by the hardware. Virtual machines can then use hypervisor calls to access the devices. This increases the efficiency of the hypervisor by reducing the load.
- Paravirtualization Paravirtualization uses dedicated drivers that are adapted to the hypervisor. This also eliminates the need for hardware support. An I/O request is sent on a logical level directly to the hypervisor, which then forwards it to the hardware. This eliminates the need to monitor the guest operating system code and makes guest communication with the hypervisor much more efficient.
OS-level server virtualization
With the operating system virtualization, only one operating system is installed on the hardware. The operating system then provides different environments. These environments look like independent operating systems, but they no longer have access to the hardware. Nevertheless, applications can be configured and operated independently of each other and are therefore protected.
The virtual instances share the kernel and the drivers. This means that each instance has the same patch status. Depending on the solution, the TCP/IP stack can also be shared. In some cases, however, it can also be configured independently.
Server Virtualization and the Importance of Hypervisors
When it comes to the type of virtualization, a basic distinction is made between type 1 (bare-metal hypervisor) and type 2 (hosted hypervisor) virtualization concepts. While bare-metal hypervisors are based directly on the hardware and do not require a host operating system, type 2 hypervisors are software that can be installed under Windows, Linux, or MacOS X.
In practice, however, the limits of this definition are becoming increasingly blurred. For example, Microsoft Hyper-V is considered a bare-metal virtualization product, while KVM (Kernel Virtual Machine, Linux) is a hosted hypervisor.
Everything you need to know about server virtualization and much more at HAPPYWARE
If you are looking for more information on server virtualization or you have further questions, please phone or send us an email - we will be happy to help.