Veltrixa
Veltrixa
Providing high-efficiency custom computational infrastructures engineered to survive harsh climates and support AI & HPC workloads.
As the demand for artificial intelligence, large language model (LLM) processing like DeepSeek, and edge processing scales globally, standard brick-and-mortar data centers cannot always meet rapid deployment timelines or localized footprint requirements. Our specialized OEM/ODM Containerized Solutions bring high-density server racking, liquid cooling setups, intelligent power management, and microgrid integrations together within standard ISO-shipping dimensions (10ft, 20ft, 40ft).
"We engineering mobile server containers that transform field computing—delivering rack-level system integrity, advanced physical security, and optimized Power Usage Effectiveness (PUE) down to 1.15 in highly challenging operational zones."
By blending custom fabrication with high-performance computing hardware (including xFusion, Dell, and HPE architectures), we deliver turn-key computational centers ready for connection to local utilities or off-grid power units. Every unit undergoes strict thermal validation and load tests before leaving our assembly bays.
Based in the manufacturing technology hub of Shenzhen, China, Shenzhen Veltrixa Intelligent Computing Co., Ltd. stands as a premium supplier of compute arrays and containerized infrastructure integrations. Since our founding in 2017, we have developed robust relationships across global supply chains to source and optimize the finest computing hardware.
Analysis of modular server deployments, structural demands, and high-density liquid cooling shifts.
Modern machine learning models and large GPU clusters demand unprecedented thermal control. Traditional computer server setups are shifting toward mobile server containers configured for direct-to-chip liquid cooling or rear-door heat exchangers, keeping thermal parameters in check even during intensive computing cycles.
Telecom providers and smart cities require computing capability right next to the data origin. Shipping container configurations permit modular, stackable, and instantly ready designs that can be set up in a fraction of the time compared to standard multi-level data centers, significantly lowering capital expenditures.
Global regulatory bodies are demanding lower carbon footprints. Our mobile container modules integrate smart uninterruptible power supplies (UPS), solar grid routing inputs, and free-air cooling loops to maximize resource utilization and keep regional operation metrics compliant with global environmental mandates.
Tailoring heavy compute containers for enterprise platforms, edge systems, and high-density setups.
Designed for large language models, graphics rendering pipelines, and extensive deep learning clusters. We configure these modules with massive power inlets and customized distribution setups capable of handling 40kW+ per rack. High-integrity rails safely house multi-socket systems such as the FusionServer 2488H V6 or the xFusion G5500 V6 / V7 models.
Optimized for banks, healthcare providers, and high-volume e-commerce platforms. These container configurations include dedicated hot/cold aisle isolation systems, fire protection units (Novec 1230 / FM200), and backup battery solutions. Optimized rack arrangements house 4-socket high-density machines like the 2488H V5 Rack Server, ensuring zero downtime for critical transactions.
Perfect for localized telemetry aggregation, automated factory lines, and port management networks. Built inside heavy-duty 10ft or 20ft enclosures, these configurations are equipped with high-durability seals against dust and moisture ingress, integrating compact 1U systems such as the PowerEdge R350 or 1288H V6 platforms.
For research clusters pushing high-frequency calculations. By utilizing secondary piping manifolds, fluid pumps, and heat transfer loops, these custom container layouts maintain chip temperatures below critical margins. This layout is built to support next-generation setups running deep learning networks on intensive GPU configurations.
Our commitment to rigorous design, quality validation, and forward-looking system engineering.
Our engineering division designs structural reinforcements utilizing high-strength steel framing, anti-corrosion outer coats, and polyurethane insulation panels to shield internal hardware from extreme environmental conditions. Structural simulation tools verify load handling and stability parameters prior to production.
We deploy precise smart busway systems, automatic transfer switches (ATS), and N+1 power backups. Airflow patterns are simulated through computerized fluid analysis (CFD) to balance intake and exhaust paths, avoiding hotspots and optimizing structural heat dissipation.
Before shipment, our team of 46 quality assurance inspectors runs active thermal tests, electrical load assessments, connection certifications, and water spray resistance tests. Each container and internal compute rack is verified for stable, continuous operational capability.
Moving forward, we are working to integrate direct solar micro-inverters, smart battery storage management systems, and machine-learning-driven climate controls. These enhancements will dynamically shift internal air patterns and cooling flow rates according to operational requirements.
Reliable operations across extreme geographic environments.
Optimized for desert mining zones and dry climates. Enclosures are built with reinforced solar insulation coatings, heavy-duty sand filter systems, and dual DX air handling units. This configuration keeps interior temperatures at 22°C (±2°C) even when external temperatures exceed 50°C.
Engineered for oil platforms, ports, and island regions. Built with C5-M marine-grade exterior coating systems, heavy-duty stainless hardware, and active internal humidity control units to protect compute servers against accelerated salt-air corrosion.
Designed for mountain stations and northern regions. Incorporates thermal insulation layers, intake pre-heating systems, and intelligent heat recovery loops that recycle warmth generated by the computing equipment to keep key system components running stably.
Answering common questions about custom OEM/ODM mobile computing enclosures.
Inside our Shenzhen assembly plant and hardware integration facilities.
