Klyvora
Klyvora
High-throughput processing pipelines optimized for data center deployments and AI enterprise acceleration.
The worldwide silicon industry is undergoing an unprecedented architectural transformation. Driven by complex requirements for deep learning training, AI inference, and decentralized cloud workloads, modern computing infrastructures are transitioning from general-purpose CPUs to heterogeneous compute clusters. In this context, China has consolidated its position as a critical powerhouse for system integration, custom chip deployment, and high-performance server motherboard design.
Our role at Klyvora Node Technologies Ltd. spans the bridge between silicon fab innovation and enterprise implementation. By developing bespoke hardware systems compatible with cutting-edge architectures—including x86, ARM, and emerging localized instruction sets—we enable worldwide data centers to achieve optimized thermal profiles, maximized compute densities, and seamless interconnect performance.
Supporting dual-socket x86 Xeon/EPYC, customized local microarchitectures, and high-performance ARM nodes to bypass system bottlenecks.
Integration of high-bandwidth PCIe Gen 5 topologies, CXL memory expansion, and QSFP+ networking configurations for zero latency.
Direct-to-chip (D2C) liquid cooling blocks designed to maintain optimal silicon junction temperatures even under high TDP workloads.
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. Established in 2016, the company operates a modern production facility with a total building area of approximately 320㎡, supporting integrated R&D, assembly, testing, and quality control operations.
Through our robust international trade networks, we ship advanced computing platforms to key facilities across North America, Europe, the Middle East, and Southeast Asia. Over 11 years of structural knowledge in compute-dense design allow our engineering group to provide unmatched customization levels, ensuring compatibility with major AI architectures such as DeepSeek, TensorFlow, and PyTorch.
Whether upgrading massive hyperscale facilities or deploying complex on-prem edge computing platforms, Klyvora provides tailored configurations. Our standard quality assurance system integrates thermal imaging stress profiles, multi-stage memory validation, and dynamic load testing to guarantee reliable execution.
Mapping the future of hardware, silicon distribution, and AI optimization paradigms.
Scaling monolithic dies past physical limitations is now impractical. The integration of 2.5D and 3D chiplet packing options allows us to pair performance-optimized CPU cores with custom accelerator systems. Klyvora is designing specific server topologies to support modular multi-chip structures, minimizing memory access penalties.
Addressing memory bottlenecks represents the biggest challenge for modern Large Language Models (LLMs). By applying CXL 2.0 and CXL 3.0 protocols, we enable seamless memory pooling between CPUs and GPU hardware arrays, drastically improving data-read cycles during multi-billion parameter model weights updates.
With local frameworks like DeepSeek showing massive performance scaling, we have engineered dedicated cache structures and custom power delivery networks inside our bare-metal designs. This aligns perfectly with modern low-bit quantization (FP4/INT8) demands.
How our manufacturing platform satisfies rigorous industrial demands.
We customize system layouts with ultra-high GPU densities, optimizing backplane designs for fast NVLink and InfiniBand execution. This prevents compute-bound processes from stalling and optimizes overall datacenter power metrics (PUE).
Deploying high-performance servers in non-temperature-controlled spaces requires durable builds. Our short-depth systems combine rugged rack designs with advanced cooling configurations to operate continuously at high temperatures.
Leveraging dual-socket Xeon and EPYC platforms, we design compute-dense servers tailored for virtualization, relational databases, and high-frequency business transaction networks.
Explore our line of server-grade storage nodes, acceleration processors, and structural accessories.
Technical answers resolving configuration, performance, and sourcing queries.
