Klyvora
Klyvora
Explore our cutting-edge, customizable computing systems engineered for low latency, deep learning acceleration, and robust enterprise networking.
Founded in 2016, Klyvora Node Technologies Ltd. has established itself as an authoritative manufacturer and supplier of hardware-level computing and network infrastructure. Specializing in high-performance AI GPU server systems, scalable cluster computing models, and high-density enterprise storage architectures, our operations leverage over 11 years of deep industry expertise.
Operating a highly specialized 320㎡ integrated design facility and engineering laboratory, Klyvora is purpose-built for extreme-precision validation, configuration testing, and custom prototyping. With an annual export volume ranging between USD 8 million and USD 22 million, we provide direct OEM solutions to a vast global market, including North America, Europe, the Middle East, and Southeast Asia.
Modern enterprises face the monumental challenge of upgrading computing power while balancing rising energy bills and operational complexity.
As deep learning algorithms, microservices, and big data structures expand, legacy generic server architectures struggle under the load. Enterprises require application-specific hardware customization. Whether optimizing PCI Express 5.0 lane configurations to support multiple GPU topologies, or designing custom rack configurations to match exact structural capacities of colocation data centers, off-the-shelf options often fall short.
Klyvora addresses this performance gap by working closely with global IT procurement officers to customize bare-metal system architecture. By customizing component layout at the BIOS/BMC level, we ensure our compute systems achieve maximum operating efficiency, significantly lowering Mean Time Between Failures (MTBF).
Procuring network and computing hardware involves looking beyond the initial acquisition cost. True cost optimization lies in power distribution efficiency, intelligent cooling, and server density. Liquid-cooled high-density solutions, like the DL360 Gen12 configurations we build, reduce overall Power Usage Effectiveness (PUE) ratings in modern datacenters.
By shifting to direct-to-chip or hybrid liquid cooling setups, facilities can cut cooling costs by up to 40%. Additionally, high-density 1U/2U configurations conserve floor space and rack space, cutting recurring leasing costs and boosting performance per square meter.
Centering our logistics and component sourcing in China allows Klyvora to leverage the world's most robust electronics supply chain.
With an extensive network of 860+ supply chain partners, we secure direct allocations of critical, hard-to-source components. This includes advanced server-grade motherboards, high-amperage smart PSUs, high-speed RAM, enterprise NVMe SSDs, and specialized graphics processing units.
Our agile design and validation team adapts assembly setups to meet bespoke client needs. We modify everything from metal thickness in chassis designs to multi-sensor fan control boards and complex custom power distribution pathways.
Our localized infrastructure in China streamlines component assembly, reducing production times. By shortening shipping lanes between silicon foundries, PCB fabricators, and metal sheet stamps, we deliver customized server builds weeks faster than competitors.
At Klyvora, we maintain a dedicated QA team of 42 certified engineers who oversee strict compliance testing. Each server undergoes a comprehensive vetting process before shipping:
Shipping complex computing clusters across international borders requires strict adherence to regional regulatory frameworks. We ensure all custom assemblies comply with major regulatory standards:
From core cloud applications to edge deployments, Klyvora configurations deliver consistent performance across diverse operational environments.
AI workloads require low latency and high bandwidth between compute nodes. Our optimized high-density GPU chassis offer the structural layout and thermal efficiency needed to run large-scale training pipelines without thermal throttling.
Cloud service providers require high-density systems to maximize virtual machine density. Our 1U and 2U rack servers feature hot-swappable storage and redundant PSUs, ensuring continuous operation and high reliability.
For financial systems, microsecond delays can mean lost revenue. Our bare-metal server integrations feature low-latency network cards and customized high-speed memory arrays to accelerate data processing and execution.
We keep our customers ahead of technology cycles by tracking and integrating next-generation hardware designs.
As CPU and GPU thermal design power (TDP) values surpass 400W to 700W, traditional air cooling is reaching its physical limits. Direct-to-chip liquid cooling loops, combined with rear-door heat exchangers, are becoming standard requirements for dense compute setups. This architecture directs coolant to warm components, keeping them running smoothly even during heavy workloads.
The industry is moving toward modular server systems like the OCP (Open Compute Project) standards. This modular approach allows components to be upgraded independently, preventing whole-system obsolescence. Power shelves, storage boards, and CPU trays can be hot-swapped or upgraded, reducing waste and keeping data centers adaptable.
Select specialized hardware platforms customized to support GPU workloads, high-speed storage, and distributed enterprise databases.
Get answers to common questions about our custom hardware designs, manufacturing processes, and shipping procedures.
