Velorix
Velorix
Direct manufacturer-sourced high-reliability systems built for modern neural network training, inference pipelines, and scalable enterprise storage.
Founded in 2016, Velorix Intelligent Technology Co., Ltd. is a leading specialist manufacturer and global exporter of high-performance AI GPU servers, custom cluster architecture, and data center node platforms. Operating from our advanced manufacturing facility, we specialize in building highly configurable platforms engineered to withstand the demanding computing loads of AI LLM training, autonomous driving simulation, and intensive multi-tenant cloud operations.
With an annual export volume exceeding USD 12 million, Velorix has built an international footprint across Europe, North America, the Middle East, and the Asia-Pacific region. Our integrated engineering approach leverages strategic component partnerships and rigorous validation processes to bring world-class, cost-efficient computing infrastructure to enterprises globally.
*Velorix maintains strict compliance and builds robust configurations to ensure hardware stability under 24/7/365 sustained workloads.
The global race for artificial intelligence dominance relies heavily on speed. Developing and deploying complex workloads—such as LLM training, vector search indexes, and massive neural inference clusters—requires stable hardware sourcing channels. China represents the epicenter of this hardware pipeline, offering an unmatched manufacturing infrastructure capable of optimizing every segment of AI server assembly.
At Velorix, our strategic positioning within this industrial cluster allows us to bypass intermediate trading markups and maintain direct engineering control over key component supplies. Our partner network of over 850 suppliers ensures that crucial sub-systems (such as high-current power distribution units, low-loss high-speed PCIe Gen 5 routing lanes, active liquid loops, and robust chassis frames) are integrated flawlessly. This consolidation dramatically shortens our hardware prototyping cycles, allowing us to roll out customized configurations within days rather than months.
By operating under strict quality assurance frameworks, we bridge the gap between highly customizable server topologies and scalable factory throughput. We ensure our components align with next-generation interconnect requirements, supporting critical bus width speeds and dynamic data transfer parameters required for highly parallelized multi-GPU execution.
Navigating global regulatory frameworks is a critical phase of AI infrastructure acquisition. Server hardware deployed in high-performance cloud clusters must meet local safety, electromagnetic emissions, and environmental standards. Velorix designs and validates all GPU platform nodes to cross borders smoothly, mitigating compliance risks for our enterprise clients.
Every server variant we manufacture complies with international criteria. We address safety protocols via CE, FCC, and RoHS certifications, ensuring electrical safety and minimizing hazardous materials in physical configurations. Moreover, our logistics engineering department manages export classifications, tariff tracking, and high-priority transit paths, providing structured tracking for all global destinations.
Whether you require standard 1U/2U configurations, multi-socket scale-up architectures, or customized liquid-cooled racks, our engineering team modifies layout designs to comply with localized voltage requirements, structural shipping safety limits, and regulatory constraints.
| Region | Standard Compliance | Engineering Solution / Delivery Priority |
|---|---|---|
| North America | FCC Part 15, UL Safety Standards | Emissions mitigation; High-draw 110V/220V power supply integration. |
| European Union | CE Mark, RoHS Directive, WEEE | Eco-design power optimization, lead-free soldering, environmental disposal support. |
| Middle East & APAC | Local Import Certifications | Tropicalized thermal profiles, custom dust filtration, high humidity tolerance testing. |
| Global Data Centers | IPMI 2.0, Redfish API Compliance | Secure microcode validation, remote telemetry, automated fan control matrices. |
From the rise of open-source architectures like DeepSeek to dense PCIe Gen 5 hardware interconnects, modern data centers demand advanced architecture design.
New model paradigms (such as DeepSeek-V3/R1 MoE architectures) demand highly dynamic tensor routing. Our GPU motherboards are designed with low-latency PCIe paths to prevent bottlenecking during dense parameter swapping across nodes.
Maximizing device-to-host bandwidth is essential. Our server architectures support up to 128GB/s of bi-directional throughput per slot, unlocking full hardware scaling capacity for massive datasets and deep learning pipelines.
As modern high-density processing units push thermal limits past 500W per node, traditional fan-based units encounter performance degradation. We engineer high-integrity liquid cold plates and quick-disconnect loops directly into custom ODM systems.
Modern enterprise compute platforms must handle highly specific localized applications. Below is how our infrastructure platforms perform under target production workloads:
Deploying transformer networks, generative AI agents, and conversational models require rapid matrix operations. Our GPU servers integrate high-bandwidth NVMe clusters to stream data packages directly to the cache, achieving ultra-low token latency.
From real-time factory floor vision checks to processing raw LIDAR data streams for self-driving path planning. These deployments need rugged structural chassis design, high shock tolerance, and dust mitigation configurations for industrial edge nodes.
Executing multi-variable simulations, protein folding equations, and physical rendering pipelines requires extreme memory capacity and redundancy. We configure systems with ECC-validated memory modules and high-reliability SAS/SATA storage solutions to prevent calculation errors.
Velorix operates under ISO-managed quality standards. Every GPU server undergoes complete functional checkouts, extreme thermal profiling, and system-level performance benchmarking before dispatch.
Find quick technical answers about our manufacturing standards, compliance policies, and procurement details.
For standard customized configurations (such as modifying PCIe layout, memory density, and storage architectures), our facility requires approximately 7 to 15 business days to finalize production and complete the 72-hour system burn-in and functional validation tests. Large cluster orders or complex ODM setups involving custom cooling distribution units (CDUs) require a tailored delivery schedule.
Yes, our R&D team of 135 engineers provides comprehensive BIOS customization and Redfish telemetry API development. We can pre-configure system behaviors, optimize CPU state frequencies for specific AI workloads (e.g., training vs. high-throughput inference), and adjust fan speed curves for custom hot-aisle/cold-aisle architectures.
We operate a dedicated testing division managed by 42 quality assurance specialists. Each GPU server node is run inside high-temperature chambers simulating peak data center load environments. We monitor VRM heat dispersion, check for throttling on critical high-bandwidth buses, and verify active fan system response matrices to ensure hardware stability under extended continuous operations.
We support standard trade payment options including T/T and L/C. Logistics arrangements are managed by our export services division, offering FOB, CIF, or DDP delivery paths. We utilize specialized double-cushioned wooden casing and structural shock mitigation frames to guarantee safe transit for high-density servers.
Browse our selected enterprise hardware options to scale your local networking capabilities, storage arrays, and GPU computing nodes.
