Veltron
Veltron
High-performance rack servers designed for high-density AI computing and modern data center deployments requiring optimized cooling flow.
With the explosive rise of deep learning models, hyper-scale cloud deployments, and intensive compute workloads, thermal management has transitioned from a secondary facility requirement to a critical component of server performance architecture. Modern server systems, such as GPU-dense platforms, require engineered architectures capable of handling significantly elevated Thermal Design Power (TDP). Standard air cooling can struggle to sustain performance efficiency without excessive energy draw, driving a global shift toward advanced thermal designs.
As a premier developer of high-density computational equipment and server components, Veltron Computing Technology Co., Ltd. addresses these operational requirements. By utilizing direct-to-chip liquid loops, high-performance manifolds, and optimization techniques, we help operators achieve lower Power Usage Effectiveness (PUE) metrics. Our engineering methodologies target hotspots, minimizing thermal throttling and maximizing the service life of high-value silicon assets.
Continuous thermal regulation maintains consistent temperatures across microprocessors, reducing hardware failures and system instability.
Our cooling systems reduce auxiliary power draw, helping centers align with stringent regional carbon mandates.
How our manufacturing location in Shenzhen provides high-efficiency production and logistical benefits.
Operating in the heart of Shenzhen allows us to source raw materials, custom sheet metal, quick-release couplings, and electronic sensors with minimal transit times. This integrated ecosystem helps reduce manufacturing overheads, which we pass along to our clients.
Backed by 168 engineers specializing in thermal engineering, electrical control systems, and computational fluid dynamics (CFD), we design custom configurations tailored to specific heat loads. We execute complete design, testing, and production runs under one roof.
To ensure high standards for export, our facility utilizes a comprehensive quality management system with 56 professional quality control personnel overseeing manufacturing. All chassis, heat pipes, and cooling components undergo extensive pressure-drop testing, fluid loop verification, and thermal profiling.
Evaluating cooling configurations requires a deep understanding of thermodynamics, material sciences, and fluid dynamics. Global procurement teams focus on the following key metrics to ensure operational stability:
Direct-to-chip systems require compatible fluid chemistry to prevent galvanic corrosion. High-quality cold plates feature medical-grade copper pathways, complemented by coolants containing targeted corrosion inhibitors and biocides. This maintains system integrity over years of continuous operation.
The efficiency of a cold plate is determined by its thermal resistance (Rjc). By optimizing internal fin structures, we increase the surface area in contact with the fluid, maximizing heat dissipation from high-heat processors and keeping chip temperatures within optimal ranges.
System designs must balance high flow rates with pressure drop limitations. An excessive pressure drop increases pump load and energy use, while insufficient flow reduces cooling efficiency. Our designs optimize flow geometry to minimize hydraulic resistance.
Quick-disconnect couplings (QDs) are critical points for maintenance. Using double-shutoff, non-drip quick-disconnect fittings prevents fluid escape during hot-swaps, protecting nearby hardware from moisture exposure.
Data centers operate under strict localized regulations regarding environmental impact, fire safety, and electrical safety. Veltron ensures all exported thermal systems and server chassis comply with global certifications including CE, UL, RoHS, and FCC.
Additionally, we coordinate with regional engineering groups to support local integration and installation. Whether retrofitting an existing air-cooled facility with direct-to-chip loops or setting up a greenfield site, we provide the necessary technical drawings, CAD layouts, and CFD modeling outputs to streamline local compliance processes.
We provide detailed operational guidelines, covering periodic fluid sampling, filter replacements, and seal inspections, helping operators avoid unscheduled downtime.
Our global support network offers prompt engineering feedback, diagnostic assistance, and spare parts supply to minimize resolution times.
Technology pathways shaping the future of thermal management in high-density computing facilities.
Submerging complete server systems in dielectric fluid removes the need for traditional heat sinks and active fans, offering high thermal density and minimal mechanical failure risk.
Using low-boiling-point dielectric fluids allows vapor phase transitions directly at the heat source. This latent heat absorption improves thermal transfer rates at high power densities.
Dynamic flow controllers monitor CPU temperatures, server utilization, and environment parameters in real time. Adjusting pump speeds dynamically saves energy during low-utilization periods.
Optimizing cooling configurations based on local facility constraints and operational demands.
Hyperscale facilities prioritize cost efficiency and reliable operation. Standardizing rack integrations with uniform manifolds and drip-free couplings simplifies routine maintenance across high-density rows.
Enterprise environments run mixed workloads that create localized hot spots. Closed-loop rear door heat exchangers or localized direct-to-chip plates manage these high-heat zones without requiring major upgrades to the primary facility cooling system.
Edge locations often operate in unconditioned, dusty environments. Sealed, IP-rated enclosures with integrated heat pipes protect sensitive internal electronics from outside debris while maintaining safe operating temperatures.
Technical clarifications regarding data center cooling integration and wholesale supply chains.
Veltron Computing Technology Co., Ltd. is a developer and global supplier of GPU servers, AI computing systems, and high-performance server solutions. Established in 2016, Veltron designs reliable, scalable, and innovative computing infrastructure for AI training, machine learning, cloud computing, data centers, scientific research, and enterprise applications worldwide.
Located in Shenzhen, China, Veltron operates a modern manufacturing facility covering over 3,800 square meters. The facility is equipped with advanced assembly lines, testing laboratories, and quality control systems. With years of experience in the intelligent computing industry, we have established a reputation for delivering high-performance server solutions that meet the evolving demands of global customers.
Our annual export revenue exceeds USD 18 million, serving customers across North America, Europe, Southeast Asia, the Middle East, and South America. Backed by 8 years of export experience and 14 years of industry expertise, Veltron supports projects in AI infrastructure, cloud platforms, enterprise computing, and edge data centers.
Quality is at the core of our operations. We maintain a comprehensive quality management system, with 56 professional quality control personnel overseeing every stage of production. All products undergo reliability testing, performance validation, thermal testing, burn-in testing, and final inspections before shipment to ensure long-term performance and stability.
Veltron maintains strategic partnerships with more than 1,200 supply chain partners, enabling efficient component sourcing, stable production capacity, and rapid delivery times. Our primary customers include system integrators, cloud service providers, AI solution providers, data center operators, distributors, and enterprise IT infrastructure companies.
Innovation drives our growth. Our R&D center consists of 168 experienced engineers specializing in server architecture, GPU integration, thermal management, intelligent computing platforms, and customized hardware solutions. With OEM and ODM capabilities, we offer customizable options including chassis design, hardware configuration, branding, firmware optimization, and application-specific solutions. Every year, Veltron launches more than 85 new products and solution upgrades to meet the rapidly changing requirements of the AI and high-performance computing industries.
Inside Veltron's production lines, testing laboratories, and quality control operations in Shenzhen.
Explore our technical components, memory upgrades, and high-performance server options.
