Veltrixa
Veltrixa
Explore our top-tier server configurations engineered for high-density compute collocation, extreme thermal control, and maximum hardware efficiency.
Analyzing the global paradigm shift in server colocation architectures, industrial server manufacturing, and thermodynamic compliance.
Modern Enterprise Colocation is no longer limited to renting real estate space inside a regional carrier facility. Instead, it is an engineering discipline requiring cohesive hardware optimization. Physical location, mechanical alignment, containerization compliance, and modular configurations define the return on investment (ROI) for modern workloads. Globally, companies are selecting specialized server designs that can be collocated in multi-tenant environments without causing thermal throttling or exceeding power distribution unit (PDU) limitations.
In North America, Western Europe, and Southeast Asia, hyperscale cloud services and system integrators face severe constraints regarding floor space and power. Our server platforms—optimized for specialized hardware and container deployment—bridge the gap between standardized rack frames and custom AI processing nodes. They offer integrated network adapters, resilient power design, and optimal thermal profiles for immediate integration into standard 19-inch carrier cages.
Addressing the shift from legacy 5kW workloads to modern 40kW+ computing configurations. Our engineering optimizes internal components to manage higher localized thermal loads efficiently.
Utilizing OCP-inspired chassis sizes. This approach ensures complete compatibility with global colocation providers, reducing deployment time and on-site integration friction.
Preparing for the future of AI. Our liquid-ready architectures support cold-plate and immersion-based deployments, helping data centers meet PUE goals of less than 1.15.
Established in 2017, Veltrixa has grown from a specialized engineering team to a global hardware supplier and integrator.
Operating a modern production facility in Shenzhen, China, Veltrixa implements strict assembly and testing procedures. With over 12 years of industry experience and 7 years of exporting history, we have developed a robust ecosystem that supports customized server production.
Our quality management system centers around a 100% pre-shipment inspection protocol. Supported by 46 quality control professionals, every system is subjected to a comprehensive battery of tests before deployment:
Simulating extreme computing loads using specialized workloads to confirm CPU, memory, and GPU stability.
Operating chassis at high temperatures within environmental test chambers to identify thermal limitations and component stress points.
Verifying high-speed data pathways, including PCI-E Gen 5 channels, RAID controllers, and network interface cards (NICs).
Validating physical installation metrics (such as slide rails and bracket layout) against standardized global cabinets.
How Veltrixa addresses power delivery, signal integrity, and physical space limits to optimize multi-tenant hosting.
Building custom server systems requires close attention to electrical and thermodynamic characteristics. The integration of AI training clusters and high-performance GPU configurations presents key engineering challenges:
Modern processors and PCIe lanes operate at high speeds. High-speed components, such as the XC170-M-8i SAS/SATA RAID card and PCIe riser boards like the PM3YD PCI-E Riser Card, must be carefully designed to prevent signal loss. Our engineers use advanced board materials (with low dielectric constants) to maintain clean data pathways for high-speed SAS, NVMe, and PCIe cards. This allows our servers to process high-throughput workloads reliably.
Air cooling is approaching its physical limits for high-performance processors and high-TDP accelerators. Veltrixa's development roadmap focuses on Liquid Cooling Computing Systems. By designing custom cold plates that route directly to heat sources and preparing systems for liquid manifolds, we help operators manage higher workloads. These systems can be deployed in facilities with lower ambient airflow while keeping components within safe temperature ranges.
| Infrastructure Parameter | Standard Air-Cooled Cabinet | Veltrixa High-Density Liquid-Ready System |
|---|---|---|
| Average Rack Density | 5 kW - 10 kW | 35 kW - 100 kW+ |
| Target PUE (Power Usage Effectiveness) | 1.35 - 1.50 | 1.08 - 1.15 |
| Cooling Technology | Forced Air Convection / CRAC | Direct-to-Chip Cold Plates / Hybrid Immersion |
| Noise Footprint | High (High-RPM Fan Arrays) | Low (Low-RPM Fan / Liquid Loop Circulation) |
| Chassis Form Factors | 1U, 2U, 4U standard chassis | Chassis designed for fluid manifold integration |
GPU arrays generate significant power fluctuations. A cluster executing complex AI models can quickly spike from idle to maximum power. Veltrixa designs custom power distribution configurations using 80-Plus Titanium power supplies. These units provide up to 96% efficiency under typical operating loads, minimizing heat generation within the server enclosure.
From sovereign clouds to enterprise edge grids, Veltrixa platforms are optimized for diverse deployment environments.
Detailed technical answers to common questions regarding our hardware platforms and deployment procedures.
Complete your deployment with our high-density rackmount nodes, certified components, and server accessories.
