Velorix
Velorix
Direct from Factory: High-density servers, GPU clusters, and reliable data storage architectures tailored for processing intensive workloads.
Founded in 2016, Velorix Intelligent Technology Co., Ltd. is an industry-recognized pioneer in the development, custom integration, and supply of high-performance GPU servers, high-performance computing (HPC) environments, custom server chassis, and scalable enterprise storage hardware. Our highly specialized production plant of 380m² functions as a state-of-the-art precision assembly and quality-assurance lab, delivering enterprise architecture tailored for deep learning training, AI inference, high-density NAS storage, and cloud data infrastructures.
With over a decade of domain expertise and six years of dedicated export operations, Velorix has built a robust global network. We ship reliable server topologies directly to North America, Europe, the Middle East, Southeast Asia, and Oceania, satisfying stringent infrastructure requirements for research institutions, cloud service providers, and large enterprise datacenters.
We have fostered robust strategic relationships with more than 850 supply chain partners and component providers. This ecosystem guarantees stable pricing and immediate parts availability, enabling us to deliver bespoke configurations encompassing customized GPU arrays, optimized CPU node boards, flexible memory limits, and software-defined storage solutions.
Addressing TCO, latency constraints, and capacity demands in modern server procurement.
Global procurement offices face component bottlenecks. By leveraging over 850 qualified supplier integrations, Velorix ensures consistent component sourcing, reducing production lead times for complex bare-metal servers by up to 35% compared to conventional OEMs.
Traditional SAS/SATA topologies struggle with the I/O throughput needed for multi-GPU training. Enterprise buyers are pivoting toward NVMe-over-Fabrics (NVMe-oF) architectures to secure sub-millisecond access and line-rate speeds across distributed clusters.
Rising energy prices demand high-efficiency rack deployments. Our integration of ultra-dense 1U and 2U form factors along with high-efficiency 80-Plus Titanium power modules ensures optimized performance-per-watt ratios, lowering cooling overhead.
Engineered to handle big data analytics, deep learning modeling, and hyperscale virtualization.
Supporting models like DeepSeek, LLaMA, and proprietary LLMs requires sustained FP8/FP16 computing density. Our customized multi-GPU rackmount platforms utilize high-bandwidth NVLink and PCIe Gen 5 fabrics to prevent communication bottlenecks between GPU nodes and high-speed local NVMe pools.
Deployments utilizing the G5200 V5 GPU Server excel in urban video diagnostics and edge object detection. These setups balance local compute nodes with low-latency flash storage to capture, index, and process hundreds of concurrent 4K streams with zero packet loss.
Designed for multi-tenant service providers, our xFusion and Dell-based systems offer the high density required for hyperconverged infrastructure (HCI). They integrate multi-socket Xeon processors and up to 2TB DDR5 memory to sustain dozens of independent virtual machines per unit space.
A look under the hood of Velorix's hardware design standards and next-generation storage path.
By implementing Compute Express Link (CXL) alongside PCIe 5.0 interfaces, we resolve memory access bottlenecks. This architecture facilitates dynamic memory sharing between host CPUs and dedicated accelerators, significantly boosting database transaction speeds and reducing system latency.
As GPU power consumption rises past 700W per accelerator, traditional air cooling reaches its limits. Our thermal engineering team is designing hybrid copper-chamber heatsinks and closed-loop direct-to-chip liquid cooling systems. This ensures stable operation during continuous high-load training runs.
We optimize server configurations for systems like Ceph, TrueNAS, and Microsoft Storage Spaces Direct. Through custom BIOS modifications, flash-cache tiering, and dedicated SAS expanders, our hardware maximizes sequential write speeds while safeguarding drive endurance.
Using high-efficiency modules like the HVDC1500wb Power Module, our storage platforms support active-active redundant power schemes. This mitigates power-supply failures and stabilizes operations under dynamic high-performance server loads.
Transforming complex technical concepts into rack-ready infrastructure configurations.
Collaborate with our 135 engineers to select CPU platforms (Xeon/EPYC), optimize PCIe routing, and plan GPU and memory layouts.
Using CFD analysis, we model chassis airflow and select appropriate high-static pressure fans and redundant power configurations.
We assemble sample nodes to undergo environmental, component compatibility, and long-term burn-in testing.
We handle global freight logistics, ensuring compliance with importing standards for direct delivery to datacenters.
Exporting server platforms requires strict adherence to international regulatory frameworks. Velorix maintains compliance with CE, FCC, RoHS, and UL certifications, facilitating hassle-free importation into European and North American territories.
Our 42 dedicated quality assurance professionals review every motherboard configuration and chassis assembly. By leveraging advanced ESD-safe workspaces and calibrated testing rigs, we consistently achieve a field failure rate of less than 0.15%.
Additionally, our custom shipping crates use density-optimized foam inserts and moisture-barrier packaging. This secures heavy chassis (including multi-GPU units) against transit shocks, ensuring they arrive on-site ready for installation.
Technical answers to common queries regarding OEM customization, component options, and logistics support.
Explore additional enterprise-grade systems, high-efficiency power units, and processors designed for compute clusters.
