Klyvora
Klyvora
High-performance configurations tailored for critical computational tasks in the Berlin-Brandenburg digital corridors.
Aligning advanced hardware architecture with the unique constraints, scaling needs, and green energy initiatives of the German capital.
The Berlin-Brandenburg region has rapidly transitioned into one of Europe's premier technology clusters. From the concentrated research environments in Adlershof Science and Technology Park to the burgeoning AI and deep tech hub in the urban core, the requirements for data computing have evolved. Local data center operators, regional internet exchanges, and enterprise entities are facing a dual challenge: they must scale their workload processing capabilities exponentially while operating under Germany’s strict energy laws, including the Energy Efficiency Act (EnEfG).
This is where V7 rack servers step in. Architected to optimize computing density and minimize Power Usage Effectiveness (PUE), V7 architectures integrate seamlessly with modern cooling strategies. In Berlin, where waste heat recovery is increasingly becoming a regulatory mandate for new installations, V7's advanced thermal design facilitates easy connection to hot water cooling loops. These liquid-to-air cooling options allow data centers to redirect excess heat directly back into local district heating grids, transforming a structural footprint cost into a municipal asset.
1. AI Research & Local Inference: Startups located in Berlin-Mitte and research clusters like the Berlin Institute for the Foundations of Learning and Data (BIFOLD) require robust local hardware configurations. Large Language Models (LLMs) like Deepseek necessitate substantial memory bandwidth and tight GPU clustering. V7 systems offer optimized PCIe Gen 5 lanes that minimize latency, enabling researchers to run local model adjustments without relying solely on high-latency cloud solutions.
2. Edge Data Infrastructure for Clean Tech & Automotive: With major industrial expansion in the Brandenburg perimeter (such as automated manufacturing facilities and clean energy systems), high-reliability edge servers are needed to collect and analyze telemetry data in near real-time. Compact 1U and 2U rack server modules provide the high-performance computing required for edge execution, shielded by hardware security modules (HSM) that comply with the highest industrial standards.
3. Medical Informatics and GDPR Compliance: Berlin's renowned healthcare clusters, including the Charité Medical University, manage vast databases of confidential patient data. Moving these sensitive assets to public cloud environments presents significant regulatory hurdles under the General Data Protection Regulation (GDPR). Local data centers utilize dedicated V7 bare-metal servers equipped with TPM 2.0 chips and hardware-level encryption to satisfy both the processing demands of health imaging tools and national data sovereignty regulations.
An overview of computing architecture designed for high throughput, memory density, and low-latency interconnectivity.
The V7 server series represents a significant advancement in x86 architecture. Powered by dual-socket processors (supporting up to the latest generation of scalable computing cores), the platform offers a huge leap in multi-threaded application performance. The mainboard layout is built around DDR5 memory channels, which provide data transfer speeds up to 5600 MT/s. This matches the requirements of memory-intensive workloads like real-time data streaming, high-frequency trading simulations, and complex scientific calculations.
Flexible Storage and Multi-Protocol Interface: V7 servers utilize a hybrid drive bay backplane design. By integrating NVMe, SAS, and SATA interfaces, users can structure their storage tiers flexibly. Hot-swappable solid-state storage bays can be configured directly for fast caching, while large form factor (LFF) bays can handle long-term cold storage archives. The server architecture also features hardware RAID controllers with embedded flash-backed write cache (FBWC) options, protecting data in the event of unexpected power drops.
High-Speed Expansion & Peripheral Topology: With up to 8 standard PCIe 5.0 expansion slots, V7 platforms support various connectivity cards. This includes 100G/200G/400G high-speed network interfaces (NICs), SAS controllers, and high-density GPU accelerators. Additionally, the motherboard features dedicated OCP 3.0 network adapter slots, allowing users to swap out interface modules without taking up standard PCIe slots.
Intelligent Power Management (IPM): Power supplies within the V7 lineup are designed for 80-Plus Titanium levels of efficiency, with an output rating of up to 96% under standard loads. The onboard BMC controller monitors the thermals of individual component sectors (such as CPUs, RAM modules, and VRMs) in real-time. Using this telemetry, the BMC dynamically adjusts the speed of counter-rotating cooling fans. This keeps power overhead low and prevents thermal throttling under intense computing demands.
How our manufacturing infrastructure and global logistics network ensure consistent server delivery and custom system integration.
In high-performance computing, hardware delivery times are crucial. Standard distribution systems often struggle with long lead times due to component shortages. Our operations bridge this gap by combining direct assembly, testing, and configuration with a highly resilient supply chain. This setup allows us to keep production moving and deliver custom-configured V7 rack servers quickly to enterprise customers in Berlin and across Europe.
Our component network includes over 860 partners, ensuring stable sourcing of memory modules, high-reliability VRMs, network adapters, and custom server enclosures. This extensive supplier base helps protect our assembly operations from unexpected market fluctuations. Whether you need a standard 1U web hosting server or a high-density 8U GPU computing cluster, we can assemble, test, and ship your configuration within a predictable timeframe.
Enterprise requirements often go beyond standard hardware configurations. Our engineering teams specialize in customization options across several areas:
1. Custom BIOS/Firmware Integration: We offer custom UEFI and BMC setups, allowing you to load your preferred security keys, configure PXE boot parameters, and deploy customized system profiles for remote monitoring from day one.
2. Storage and RAID Adjustments: Storage backplanes can be configured to match your specific drive layout requirements, optimizing performance for caching, database hosting, or virtualization setups.
3. Specialized Cooling Configurations: For data centers with low-noise or high-temperature environments, we offer custom fan profiles and direct-to-chip liquid cooling modifications to optimize thermal management.
A look into our manufacturing processes, global export reach, and quality inspection facilities.
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.
The company reports annual export revenue ranging between USD 8 million and USD 22 million, with over 6 years of export experience and 11 years of accumulated industry expertise in advanced computing hardware and system integration. Klyvora maintains a strong international trade background and serves major markets including North America, Europe, the Middle East, and Southeast Asia.
Klyvora Node Technologies employs a structured quality assurance system, combining automated testing methods, burn-in stress testing, and full-system validation procedures. Product inspection methods include thermal performance testing, hardware stress diagnostics, and multi-stage functional verification. The quality control team consists of approximately 42 dedicated professionals ensuring strict compliance with international manufacturing standards.
The company collaborates with a global supply chain network of over 860 partners, enabling stable sourcing of high-grade components such as GPUs, server-grade motherboards, power systems, and cooling solutions. Its primary customer base includes AI research institutions, cloud service providers, enterprise data centers, and HPC solution integrators.
Klyvora maintains strong R&D capabilities with a team of around 180 engineers focused on GPU server architecture optimization, liquid cooling innovation, and AI workload acceleration. The company supports a wide range of customization options, including chassis design, thermal configuration, GPU density optimization, and firmware-level system tuning.
In the past year, Klyvora has launched approximately 86 new products, reflecting its continuous innovation in high-density computing systems and next-generation AI infrastructure solutions.
Explore our range of rack-mount systems optimized for virtualization, deep learning, and hybrid cloud storage.
Answers to common technical, logistics, and compliance questions regarding V7 deployments in Europe.
