Veltrixa
Veltrixa
High-efficiency rack servers, storage platforms, and accelerators designed for high-density Cloud Application Management workflows.
Veltrixa integrates high-density engineering, global supply ecosystems, and structural testing standards to power modern cloud architectures.
We provide full hardware modifications, board layouts, custom cooling loops, and dedicated bare-metal cloud firmware configurations tailored for localized enterprise deployment.
Our facility conducts 100% pre-shipment inspections featuring dynamic burn-in testing, thermal validation, network stress-testing, and system-level performance benchmarking.
Exporting to North America, Western Europe, Southeast Asia, the Middle East, and Australia. Backed by 7 years of export compliance and logistics management.
Bridging the gap between specialized hardware design and hyper-scalable software deployment orchestrations.
In modern data centers, cloud application optimization begins at the silicon and BIOS layers. Our server hardware platforms, including the xFusion 2288H V7 and custom AI training clusters, leverage advanced Baseboard Management Controllers (BMCs) and customized IPMI/LOM firmware. This enables orchestrators (such as Kubernetes, OpenStack, and VMware vSphere) to dynamically monitor thermal loads, control power distribution, and deploy bare-metal resources in real-time. By tailoring hardware configuration options (such as PCIE lane routing and GPU memory topology), Veltrixa ensures minimized latency for complex microservice architectures.
With the rise of large language models (LLMs) like DeepSeek, standard cloud computing layouts require optimized hardware pathways. Our G8600 V7 8U GPU Rack Server platforms are structurally routed to support massive scale, high-throughput model training, and distributed edge AI inference. The inclusion of high-speed interconnect interfaces (such as PCIe 5.0 and NVLink topology options) ensures that cloud workloads execute with minimal packet loss and maximized data transfer speeds.
To reduce global PUE (Power Usage Effectiveness) metrics, Veltrixa has integrated liquid-to-air and liquid-to-liquid cooling systems into our custom server enclosures. By replacing traditional heat dissipation structures with micro-channel cold plates positioned directly over high-heat sources like Intel Xeon Scalable processors and high-capacity NVIDIA GPUs, we achieve up to a 35% reduction in cooling energy consumption.
| Feature Set | Standard Air-Cooled Configuration | Advanced Liquid-Cooled Architecture | Cloud Management Impact |
|---|---|---|---|
| PUE Rating | ~1.45 - 1.60 | ~1.15 - 1.25 | Lower operational overhead, optimized thermal margins. |
| GPU Dense Support | Up to 4-GPU configurations (standard 2U) | Up to 8-GPU configurations (dense profiling) | Higher local density for container clustering. |
| Lifecycle Longevity | Baseline thermal stress limits | Consistent lower operating temperatures | Extended hardware lifecycle, minimized device replacement. |
Engineered infrastructures built for high-performance cloud applications, deep learning startups, and public-sector integrations.
High-density GPU nodes and customized server structures enable virtualized GPU slicing, providing flexible, cost-efficient computing resources to deep learning startups and SaaS developers globally.
Compact, short-depth server enclosures designed for remote offices, localized manufacturing hubs, and smart city visual analysis. Enabling real-time inference without high cloud latency.
Clustered rack integrations with optimized CPU interconnects, high-bandwidth memory (HBM), and storage pools designed to run complex simulation models, quantum analysis, and massive data processing pipelines.
Strategically situated in Shenzhen, the global epicentre of electronic hardware design and assembly, Shenzhen Veltrixa Intelligent Computing Co., Ltd. leverages a highly unified manufacturing ecosystem. Our 386 m² production and integration facility is optimized for high-density system configuration, final staging, and strict quality control.
By maintaining direct strategic links with over 1,280+ supply chain partners, we eliminate procurement bottlenecks for essential microchips, high-speed RAM modules, server power supplies, and specialized array cards. Our assembly process relies on advanced precision tooling, static-free cleanroom environments, and automated diagnostic modules to ensure rapid prototyping and quick turnaround times for custom OEM/ODM requests.
Our Factory 4.0 framework incorporates real-time production tracking, allowing enterprise customers to inspect critical validation stages, from component sorting and structural casing modification to customized BIOS deployment and final server testing.
Operating with complete international regulatory compliance, strict thermal analysis, and robust technical documentation.
All products are structurally built to support major international standards including CE, FCC, RoHS, and local telecommunications protocols. We ensure custom-label server configurations pass localized environmental and hardware tests.
Hardware security features include clean UEFI build pipelines, secure boot features, and isolated IPMI networks to safeguard cloud application managers from unauthorized hardware-level intrusion.
Our core engineering team possesses over a decade of industry expertise, enabling swift resolution of signal integrity issues, high-frequency bus collisions, and high-temperature thermal bottlenecks.
We streamline the path from physical server requirements to global rack-level deployments through a highly structured 5-step workflow.
Review compute, memory, and thermal requirements. Align chassis dimensions (1U, 2U, 4U, or 8U) with targeted rack profiles.
Leverage Veltrixa's network of 1,280+ supply chain partners to source high-grade CPUs, DRAM modules, and server-optimized PCBs.
Assemble physical chassis prototypes, custom cooling configurations, array cards, and bespoke BMC firmware setups.
Execute a 100% pre-shipment quality program including 24-hour thermal burn-in, networking stress, and deep hardware benchmarks.
Secure global logistics packaging, compliance documentation, export clearance, and lifetime hardware integration support.
Detailed technical insights for IT purchasing directors, systems engineers, and cloud architects.
Our servers feature custom-configured BIOS/BMC firmware that integrates with Kubernetes, OpenStack, and major bare-metal provisioning platforms. This allows orchestrators to directly access telemetry data, monitor thermal loads, and dynamically throttle power allocations based on application performance requirements.
Operating in Shenzhen enables direct access to top-tier semiconductor suppliers and certified distribution channels. With over 1,280+ supply partners, we maintain a buffer stock of high-demand server processors, DDR4/DDR5 ECC RAM modules, and array controller cards, insulating our enterprise clients from global supply shocks.
Yes, we provide full liquid cooling customization. This includes custom micro-channel cold plate designs, specialized cooling manifolds, and liquid-to-air cooling options that integrate into standard 2U and 4U chassis profiles, drastically improving server PUE ratings.
We apply a comprehensive validation framework managed by 46 quality control experts. Every server undergoes functional verification, high-temperature cabinet burn-in testing, memory diagnostic testing (using ECC evaluation scripts), IO virtualization stress testing, and physical vibration and impact validation.
Absolutely. Our high-density compute products, such as the xFusion G8600 V7 8U GPU Rack Server, are specifically designed to optimize NVLink and high-speed PCIe topologies. This configuration prevents latency bottlenecking between multiple compute nodes during training and high-volume inference.
Original high-grade server units, processor lines, controllers, and redundancy power supply systems to maintain uninterrupted operations.
