Klyvora
Klyvora
Explore our high-performance certified building blocks designed to integrate into complex enterprise data networks and high-density clouds.
Deciphering the critical factors driving hyperscale data center infrastructure sourcing and custom rack system configurations.
In the modern digital landscape, the global computing ecosystem has transitioned from generic off-the-shelf system catalogs to custom-tuned hardware deployment architectures. Enterprises are facing significant computation overhead due to massive datasets, deep learning modeling (such as Large Language Model training and real-time inferencing), and hyper-converged virtualization environments.
Standard servers often fail to address specific system bottlenecks: inadequate PCIe lane lane distribution, constrained cooling designs that cannot cope with extreme thermal envelopes of next-generation accelerators, or sub-optimal power delivery designs. High-performance custom server engineering ensures that processing units (GPUs, ASICs, CPUs) are matched with the corresponding power, interconnect interfaces, and spatial topologies necessary to optimize system-level computing efficiency.
Leveraging the comprehensive global design, testing, and distribution capacity of Klyvora Node Technologies.
Klyvora Node Technologies Ltd. is a high-performance computing infrastructure manufacturer specializing in AI GPU server systems, scalable compute clusters, and enterprise-grade data center solutions. Since 2016, we have established ourselves as an industry leader in engineering reliable, modular server platforms. The company operates a state-of-the-art production facility with a dedicated building area of approximately 320㎡, structured intentionally to handle integrated R&D, customized assembly, precise hardware verification, and multi-stage testing loops.
Supported by a structured quality assurance division comprising approximately 42 dedicated quality control professionals, Klyvora performs rigorous diagnostic steps, including thermal stress profiling, system-level load testing, and localized hardware burn-in procedures. We operate a highly resilient and global supply network partnering with over 860 hardware component manufacturers, ensuring consistent provisioning of advanced components such as server motherboards, next-generation accelerators, memory arrays, and energy-efficient power distribution modules.
Architecting targeted system configurations tailored to meet distinct compute profiles and workload requirements.
Multi-GPU server platforms configured with direct-attach PCIe topologies to maximize data transmission rates. Designed to run massive data parsing, DeepSeek models, LLMs, and real-time vision algorithms with optimized thermal dissipation curves.
High-density 1U and 2U rack servers configured for massive storage capacity, optimal VM isolation, and high power efficiency ratings. Ideal for web cloud infrastructures, web hosts, and database layers requiring continuous uptime metrics.
Rugged, shallow-depth servers optimized for edge environments. Engineered to survive vibration, dust, and wider temperature scales while facilitating real-time telemetry processing in IoT or remote manufacturing operations.
Pioneering system design elements built to navigate the future trends of hyperscale computation.
As compute modules process increasingly complex tasks, memory and interconnect speeds present significant architecture challenges. Standard topologies struggle with latency degradation during huge cross-node database transfers. Klyvora is designing next-generation boards engineered to support Compute Express Link (CXL), providing shared memory pools across CPUs, GPUs, and smart NIC networks.
In addition, our research division has begun thermal prototyping and trace analysis for PCIe Gen 6 system topologies. This provides double the data transfer rates compared to standard PCIe Gen 5 configurations, enabling next-generation artificial intelligence processing setups to run without structural input/output limits.
High thermal density remains the primary driver of infrastructure degradation in the enterprise sector. The shift toward processors utilizing upwards of 350W TDP and accelerator chips demanding more than 700W TDP has made air cooling systems less practical.
Our engineering group designs customized liquid-to-air loop configurations and server chassis adapted for direct-to-die liquid blocks. This transition helps data center operators reduce their Power Usage Effectiveness (PUE) scores, extend hardware lifespans, and decrease cooling system power needs.
Optimizing hardware distribution networks to support clients across key international zones.
Supplying high-density AI clusters to cloud providers and technology hubs, with customized server architectures tailored for rapid installation.
Delivering fully certified CE and RoHS systems, optimized to meet strict regional energy management and carbon footprint standards.
Providing custom ruggedized edge servers and systems tailored for smart city initiatives, oil and gas data capture, and heavy industrial facilities.
Supporting emerging regional cloud centers with modular 2U and 4U servers designed to operate reliably in humid, high-temperature climates.
A look at the quality assurance protocols implemented in Klyvora's manufacturing centers.
Each customized system undergoes multiple testing cycles before final shipment. The production lines feature automated diagnostic tools that evaluate logic pathways and component reliability.
Our systems carry the CE mark, indicating compliance with the essential health, safety, and environmental requirements set by the European Union. This includes the Electromagnetic Compatibility (EMC) Directive 2014/30/EU, which ensures the equipment does not create electromagnetic interference, and the Low Voltage Directive (LVD) 2014/35/EU, which verifies safe power distribution design.
By adhering to these certifications, Klyvora provides global enterprise customers with the peace of mind that their custom server deployments meet modern regulatory safety and performance expectations.
Custom-engineered processing platforms built to support modern virtualized applications and high-density computing tasks.
In-depth technical clarifications concerning server customization, certification compliance, and system implementation.