Cluster Computing - High performance via computer clustering
If you want to increase availability or computing capacity, Cluster Computing is the perfect solution. Here at HAPPYWARE, we explain what is behind the technology and what possibilities our cluster computing solutions have to offer.
HPC Clusters
Buy HPC Cluster, High Performance Computing Cluster as a turnkey solution!
HPC clusters correctly advised and cluster price kept low e.g. for financial simulations. Based on Supermicro, Gigabyte or Tyan Servers
Cluster Server, Cluster Nodes
Cluster Server Nodes: Configure and buy single node or ask for a quote here!
Here you can find your Cluster Node, Cluster PCs and Mini-Cluster e.g. as Cluster File Server with two nodes
Virtualization Cluster
Cluster in a Box solutions: Fault tolerant and fully redundant
Virtualization clusters with the best price/performance for maximum reliability!
Here you'll find Cluster Computing
- 4U Rack SuperBlade Enclosure
- Up to 14 blade servers
- Up to 2x 10GbE switches
- 1 Management module
- 4x 2200W Power supplies (Titanium Level)
special highlight
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)
special highlight
2 Nodes in 1U
- 1U Rackmount Server, up to 185W cTDP
- Dual Socket P+, 3rd Gen Intel Xeon Scalable Processors
- 16x DIMM slots, up to 4TB RAM DDR4-3200MHz
- 2x hot-pluggable Nodes
- 4x 2.5 Inch SATA/SAS hot-swap drive bays
- 1x PCI-E 4.0 x16 LP Expansion-Slot
- 2x 1000W redundant power supplies (Titanium Level)
special highlight
All Front-Access
- 2U Rackmount Multi Node Server, up to 205W cTDP
- Single Socket P+, 3rd Gen Intel Xeon Scalable Processors
- 8x DIMM slots, up to 2TB RAM DDR4-3200MHz
- 2x M.2 NVMe
- 1x RJ45 GbE LAN port
- 1x LP PCI-E 4.0 x16, 2x PCI-E 4.0 x16 FH/HL slots
- 2x 2000W redundant power supplies
special highlight
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)
- 2U Rackmount Server, 280W cTDP
- Single AMD Ryzen Threadripper Pro 5000WX/3000WX Processors
- 8x DIMM slots, up to 2TB RAM DDR4-3200MHz
- 2x 2.5 Inch hot-swap drive bays
- 2x PCI-E 4.0 x16 External slots, 1x AIOM
- Integrated IPMI 2.0 + KVM with dedicated LAN
- 2x 2600W Redundant Power Supplies (Titanium Level)
special highlight
Up to 2 Add-on cards on 2U
- 2U Rackmount Server, up to 280W TDP
- Single Socket SP3, AMD EPYC 7003 Series Processors
- 8x DIMM slots, up to 2TB RAM DDR4-3200MHz
- 2x 2.5 hot-swap U.2 NVMe drive bays
- 6x PCI-E 4.0 x16 slots and 1x PCI-E AIOM
- Integrated IPMI 2.0 + KVM with dedicated LAN
- 2600W redundant power supplies with PMBus
special highlight
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)
- 8U Rack SuperBlade Enclosure
- Up to 20 blade servers
- Up to 2x 10GbE switches
- 1 Management module
- 4x 2200W 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)
- 6U Rackmount SuperBlade Enclosure
- Up to 14/28 Blade Servers
- Up to 2x Ethernet Switch Modules
- 1x Management module
- Up to 8x cooling fans
- Up to 8x 2200W hot-plug Power supplies (Titanium Level)
special highlight
2 Nodes in 1U
- 1U Rackmount Server, up to 185W cTDP
- Dual Socket P+, 3rd Gen Intel Xeon Scalable Processors
- 16x DIMM slots, up to 4TB RAM DDR4-3200MHz
- 2x hot-pluggable Nodes
- 4x 2.5 Inch SATA/SAS hot-swap drive bays
- 1x PCI-E 4.0 x16 LP Expansion slot
- 2x 1000W 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)
special highlight
4 CPUs, up to 12TB RAM
- 2U Rackmount Server, up to 250W TDP
- Quad Socket P+, 3rd Gen Intel Xeon Scalable Processors
- 48x DIMM slots, up to 18TB RAM DDR4-3200MHz
- 24x 2.5 Hot-swap NVMe/SAS3/SATA3 drive bays
- 6x PCI-E 3.0 slots
- 2x 10GbE RJ45 + 2x 10 GbE SFP+ with Intel X710-TM4
- 2x 2000W redundant power supplies (Titanium Level)
- 2U Rack Server, 250W TDP
- Dual Socket P+ (LGA 4189) 3rdGen Intel® Xeon® Scalable processor
- Up to 4TB: 16x 256 GB DRAM, 6TB: 8x 256 GB DRAM and 8x 512 GB
- 6x 3.5 hot-swap NVMe/SATA/SAS drive bays (6x 2.5 NVMe hybrid)
- Network connectivity via AIOM (OCP 3.0 compliant)
- S1: PCI-E 4.0 x8 LP S2: PCI-E 4.0 x8 LP S3: PCI-E 4.0 x16 LP
- 2200 Watts redundant Power Supplies (Titanium Level)
- 2U Rack 4 Node 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 SAS/SATA drive bays
- 2x PCI-E 3.0 x16 slots and 1x SIOM card support
- 1x RJ45 IPMI LAN port, Network support via SIOM
- 2x 2200W redundant power supplies (Titanium Level)
- 2U Rackmount Server, 4-way up to 250W TDP
- Quad Socket P+, 3rd Gen Intel Xeon Scalable Processors
- 48x DIMM slots, up to 6TB RAM DDR4-3200MHz
- 8x PCI-E 3.0 x16 Expansion slots and 1x OCP 3.0
- 2x 10GbE LAN ports via Intel X710-AT2
- 2x 3200W redundant power supplies (Platinum Level)
- 2U Rackmount Server, bis zu 200W TDP
- Dual Socket SP3, AMD EPYC 7003/7002 Series Processor
- 16x DIMM slots, up to 4TB RAM DDR4-3200MHz
- 6x 2.5 Inch SATA3 hot-swap drive bays
- 2x PCI-E 4.0 x16 (LP) slots and 1x SIOM card support
- 4x Hot-pluggable nodes
- 2x 2200W Redundant power supplies with PMBus (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
- 6x 3.5 Inch hot-swap drive bays
- 3x PCI-E Gen5 Expansion slots
- via AIOM slots, 2x M.2
- 2x 2200W redundant Power Supplies (Titanium Level)
- 2U Rackmount Server, 4 Nodes, up to 64 cores
- Dual Socket SP3, AMD EPYC 7003 Series Processor
- 16x DIMM slots, up to 4TB RAM DDR4-3200MHz
- 2x 2.5 7mm Slim type hot-swap drive bays
- 1x PCI-E 4.0 x16 Expansion slot and 1x OCP 3.0
- 2x 1GbE LAN ports via Intel I350-AM2
- 2x 2200W redundant power supplies (Platinum 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 SAS/SATA drive bays
- 2x PCI-E 3.0 x16 slots and 1x SIOM card support
- 2x 2200W redundant power supplies (Titanium Level)
- 8U Rack SuperBlade Enclosure
- Up to 20 blade servers
- Up to 2x 10GbE switches
- 1 Management module
- 4x 2200W Power supplies (Titanium Level)
- 2U Rackmount Server, up to 225W TDP
- Dual Socket SP3, AMD EPYC 7003 Series Processors
- 16x DIMM slots, up to 4TB RAM DDR4-3200MHz
- 4x Hot-pluggable Nodes
- 6x 2.5 hot-swap drive bays (4x NVMe & 2x SATA3)
- 2x PCI-E 4.0 x16 LP slots
- 2x 2200W redundant Power supplies with PMBus (Titanium Level)
special highlight
4 hot-pluggable Nodes on 2U
- 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
- 4 hot-pluggable Nodes
- 6x 2.5 Inch hot-swap SAS/SATA drive bays
- 2x PCI-E 3.0 x16 slots and 1 SIOM card support
- 2x 2200W redundant power supply (Titanium Level)
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Simply call us or use our inquiry form.
What is a cluster?
In IT-Business, clusters are computer systems that are made available in a loose coupling for special tasks. In general, a cluster consists of four different parts:
- A control unit which, depending on the type of cluster, is an independent system and is often known as the front-end system.
- The nodes that do the work. These are called cluster nodes.
- A common data area that all systems belonging to the cluster can access.
- A common network (see High-Performance Networks).
The individual systems are managed jointly.
The history of Cluster Computing
Cluster Computing has been around since the 1980s. The company DEC (Digital Equipment Cooperation) presented a way to connect their micro-vaxes with a large VAX via Ethernet so that they could use the shared data memory.
Later, when the first parallel computers were introduced, it was discovered that they were quite expensive because these IT systems required special hardware and software that was only used by a few customers.
Based on the old DEC solution, normal PCs running Linux were combined to form a cluster. One of the first solutions in cluster computing was the Beowulf cluster.
What computer clusters can do today
As systems and networks become more and more powerful, today's clusters have become an essential part of the modern IT landscape. No single IT system can solve complex computation tasks alone in an acceptable time. Today, ever more data is captured at various points, and the amount of data available increases continuously every year. It is therefore of growing importance to reliably process this data within the shortest possible time. IT systems that are designed for the computation of such data volumes fall under the umbrella of "High-Performance Computing". These computer cluster systems consist of special high-performance computers and GPU computing solutions. The common data area can be a single NFS server or a high-performance storage solution.
What types of computer clusters are there?
Depending on the requirements placed on the cluster, these can be divided into different categories:
- High-Performance Computing - Cluster Computing for High Demands This type of cluster can be found in technical and scientific sectors such as universities, research institutions, and corporate research departments. The time required for computation should be as short as possible because a considerable amount of information is transported between the individual IT systems. This calls for a network with short latency and fast transmission times. For more information on this type of cluster computing, refer to our article on high-performance networks.
- Big Data - Cluster Computing for processing large data packets This type of cluster computing is ideal for creating analyses from a huge amount of heterogeneous data according to different specifications. The individual nodes usually have a large data storage of their own. From the huge amount of heterogeneous data, each node is assigned one part. The data is usually transported over the network only at the beginning and end. As a result, a short latency time of the network is not necessary for this type of cluster. However, the data packages to be transported are very large. This type of cluster computing is often used in marketing, for example, to analyze buyer behavior.
- High-Performance Data Analytics - Cluster Computing for high data volumes in a short time Just as with BIG Data Cluster Computing, processing of extensive data volumes is possible with high-performance data analytics. The difference is that here the computation must take place within fractions of a second. The nodes of such a cluster benefit from GPU add-on boards, which simultaneously compute fast processing based on FP64 and FP32 data using AI software. You can read more about this in our article on GPU Computing. A typical example of this type of cluster computing is high-frequency stock trading.
- Visualization - Cluster Computing for powerful simulations The product development of e.g. aircraft as well as the process development in the chemical industry are nowadays usually carried out entirely in an IT system and fully simulated there. After the first production run, this simulation also includes real data (IoT). This results in huge amounts of data that have to be displayed in video or animation form. Clusters that have to cope with these requirements require GPU add-on cards and fall under the category of visualization clusters.
- Virtualization Virtualization is an application that can be found everywhere these days. The virtualized systems can be moved from one node to the other in a few seconds. In these clusters, the control unit is often a complex control program.
- Load Balancer Load balancing clusters distribute an incoming data stream — as it occurs in the Web server area — to a Web server cluster arranged downstream. Nowadays, these clusters are a component of software-defined networking. The hardware used (Bare Metal Switch) is a special system with many network connections, on which Cumulus Linux runs as the base operating system.
Various Computer Cluster Solutions at HAPPYWARE
If you have questions about cluster computing or you would like to find out which solutions from our product range are best for you, please contact us - we will be happy to help.