Klyvora
Klyvora
Primary rack systems and enterprise deployments custom-optimized for performance thresholds in the Irish and European economic sectors.
Klyvora Node Technologies Ltd. stands as a premier high-performance computing infrastructure manufacturer specializing in AI GPU server systems, scalable compute clusters, and enterprise-grade data center solutions. Established in 2016, we bridge the gap between silicon-level innovation and site-specific server deployment requirements. Operative from our modern production facility with a total building area of approximately 320㎡, our workflows seamlessly support integrated R&D, precision assembly, testing, and multi-layered quality control operations.
"With over 6 years of global export experience and 11 years of accumulated industry expertise in advanced computing hardware, Klyvora enables enterprises across Ireland and Europe to deploy hardware configurations configured exactly to local thermal and regulatory guidelines."
Our operational structures are geared toward solving high-volume deployment hurdles. Collaborating with a global supply chain network of over 860 partners, we maintain access to high-grade components, server motherboards, specialized power delivery architectures, and direct-to-chip liquid cooling loops.
Inside the Klyvora integration facility: advanced testing, memory matching, and component verification procedures.
Ireland has transitioned into Europe’s primary cluster for cloud, AI, and hyperscale hosting. Dublin, Dunboyne, Grange Castle, and the Silicon Docks serve as EMEA headquarters for top-tier software and public cloud giants. Consequently, local data center operations represent more than 1.2 Gigawatts of operational capacity. This immense concentration of computing power raises specific challenges that procurement teams must address when choosing HPE server platforms:
With EirGrid (Ireland’s state-owned transmission system operator) imposing strict limits on new grid connections in the Dublin region, compute density and energy efficiency are no longer optional. Modern server designs must yield maximal IOPS (Input/Output Operations Per Second) and FLOPS per watt. Systems like the HPE ProLiant DL360 Gen12 utilize advanced power distribution modules (PSUs up to 2000W with 80 Plus Titanium efficiency) to remain compliant with CRU (Commission for Regulation of Utilities) mandates.
Irish industries—ranging from offshore wind monitoring in Cork to biomedical research labs in Galway—are shifting compute tasks to the edge. This requires custom-configured rack setups that withstand fluctuating environmental metrics. Klyvora’s tailored solutions for HPE Gen11 and Gen12 chassis feature ruggedization, dust filters, and structural shock absorption, making them fit for edge installations across Ireland.
The Irish Climate Action Plan targets carbon-neutral server hosting. The air-cooling capacity of Dublin's legacy centers is reaching its thermal ceiling. Direct-to-chip liquid cooling, supported by modern chassis configurations like the DL360 Gen12 20EDSFF PCIe5 Liquid Cooling Server, transfers heat away from critical Xeon components directly. This reduces the PUE (Power Usage Effectiveness) ratio, aligning facilities with EU sustainability frameworks.
The global server market has moved past standardized computing. The rise of deep neural networks, large language models (such as deep learning engines, automated RAG loops, and AI inference systems), and dense database setups requires hybrid compute designs. Below are the key shifts driving the modern market:
| Technology Parameter | Traditional Standard (Legacy Data Centers) | Modern Standard (AI & HPC Converged) | Direct Enterprise Advantage |
|---|---|---|---|
| Processor Architecture | Single/Dual-Core legacy x86 CPUs | Intel Xeon 6 Scalable Processors (Up to 144 Cores) | Higher thread density for containerized microservices |
| Memory Standard | DDR4 (up to 3200 MT/s) | DDR5 (up to 8TB capacity configurations) | Eliminates memory bottlenecks in massive database queries |
| Bus Speed / Latency | PCIe 3.0 / PCIe 4.0 | PCIe 5.0 (64 GT/s per lane) | Doubled bandwidth for NVMe storage & GPU clusters |
| Cooling Methodology | High-CFM Fan Air Cooling | Direct Liquid Cooling (DLC) / Immersion Systems | Cuts auxiliary power usage by 30-40% at scale |
As a seasoned custom systems manufacturer, Klyvora Node Technologies integrates HPE server chassis with bespoke components to match specific operational profiles. We support customization options ranging from chassis modification to firmware-level system tuning, ensuring your workloads run on optimized hardware.
Our quality assurance workflow guarantees that every system leaving our factory is enterprise-ready. The 42-member QC team runs comprehensive diagnostics, including:
Deploying specialized server nodes helps businesses solve industry-specific efficiency and scaling challenges. Below are three main application scenarios designed for businesses in Ireland and Europe.
Ultra-low latency configurations for the Dublin International Financial Services Centre. Using optimized BIOS profiling, we reduce jitter and transaction timing differences to microseconds.
Enabling laboratories in Galway and Cork to process large-scale genome sequencing pipelines. Our systems utilize high-capacity DDR5 systems to handle large datasets in memory.
Deployments built for large cloud nodes. These units are configured for maximum compute density in standard rack frames, keeping overall cooling overhead to a minimum.
Explore our full line of GPU nodes, high-density 1U racks, and high-performance server components for cloud infrastructure.
Expert insights addressing common integration, efficiency, and compliance questions for server projects in the Irish market.
Dublin's high data center density has created local power constraints. Traditional air cooling consumes significant auxiliary fan energy. Implementing direct liquid cooling (DLC) configurations, such as the DL360 Gen12 20EDSFF Liquid Cooling Server, reduces server fan speeds and lowers host PUE. By directly removing heat from the CPU and memory blocks, facilities can operate within tight power limits while maintaining performance.
We use a structured quality assurance system managed by 42 dedicated professionals. Each system undergoes thermal burn-in stress testing, multi-stage hardware diagnostics, and full-system validation. We source high-grade components through a supply chain of over 860 partners, ensuring every customized HPE unit matches original enterprise reliability standards.
Yes. Our R&D engineering team (consisting of 180 engineers) specializes in hardware integration. We customize PCIe power distribution, install dedicated cooling solutions, and configure BIOS and firmware settings. This allows us to integrate various AI accelerator cards into the standard HPE ProLiant Gen11 and Gen12 chassis.
We provide a 3-year warranty on core enterprise products, such as our HPE ProLiant DL380 Gen12 systems. We also offer replacement parts and remote support from our engineers to resolve hardware configurations or deployment issues quickly.
DDR5 memory increases bandwidth and data rates compared to DDR4, supporting configurations up to 8TB. For virtualized applications, this means you can run more virtual machines per node without memory bottlenecks, optimizing hardware usage in enterprise settings.
