Veltron
Veltron
Explore our elite range of OCP-compatible architecture components, high-density AI storage systems, and advanced GPU servers.
The global landscape of enterprise data computing has shifted irreversibly from traditional, proprietary architectures towards open-source standard hardware configurations. Initiated by the Open Compute Project (OCP), this paradigm redesigns the core compute topology to maximize efficiency, scale dynamically, and minimize the total footprint.
Transitioning from traditional forced-air to direct liquid cooling (DLC) and immersion systems, significantly lowering Power Usage Effectiveness (PUE) down to 1.15 in hyperscale deployments.
Leveraging a standard 48V power architecture to reduce conversion losses, minimize heavy copper busbars, and deliver up to 100kW per rack capability for dense high-performance computing.
Decoupling the management and control subsystem from the processor motherboard through standard DC-SCM specifications, securing open-source modular code integrity via OpenBMC firmware.
As AI infrastructures evolve rapidly (incorporating architectures optimized for large language model deployment like DeepSeek, LLaMA, and specialized compute blocks), modern server factories in China are redefining how clusters are configured. By adopting the decoupled architectural rules of the Open Compute Project, enterprise data engineers can achieve simplified lifecycle upgrades, swap compute nodes without replacing rack chassis components, and secure higher compute density per square foot.
Headquartered in Shenzhen, China, we operate at the intersection of AI hardware innovation and industrial scaling.
Veltron Computing Technology Co., Ltd. is a professional manufacturer and global supplier of GPU servers, AI computing systems, and high-performance server solutions. Established in 2016, Veltron is dedicated to delivering 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, equipped with advanced assembly lines, testing laboratories, and quality control systems. With years of expertise in the intelligent computing industry, we have built a strong 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 has successfully supported hundreds of projects in AI infrastructure, cloud platforms, enterprise computing, and edge data centers.
Innovation drives our growth. Our dedicated R&D center consists of 168 experienced engineers specializing in server architecture, GPU integration, thermal management, intelligent computing platforms, and customized hardware solutions.
With strong OEM and ODM capabilities, we offer flexible customization 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.
Why sourcing from Shenzhen enables uncompromised technical velocity and pricing efficiency.
Our facility benefits from the immediate proximity to the world's most concentrated cluster of component suppliers, reducing raw material lead times to just hours instead of weeks.
56 professional quality control personnel manage an end-to-end framework: thermal validation, raw substrate check, automatic optical inspection (AOI), and full burn-in.
Our mature operations team manages direct shipping lines across Europe, North America, and South America, maintaining complete custom documentation for worry-free arrival.
Building server racks compliant with OCP standards demands deep synchronization between hardware engineers and mechanical design units. Veltron's strategic partnership with over 1,200 supply chain providers means we bypass global chip shortages by executing advanced component substitution with identical thermal footprints. We source premium sheet metals, optimize mechanical tolerances down to a fraction of a millimeter, and perform strict environmental tests to guard against field failures.
Optimized hardware architectures tailored for specific processing domains and infrastructure frameworks.
Modern neural network architectures, such as DeepSeek and major LLM pipelines, require extreme high-density GPU nodes with rapid interconnectivity. Veltron develops multi-GPU solutions engineered with dedicated thermal ducts, keeping high-wattage hardware components from thermal throttling. These nodes optimize bandwidth paths through advanced PCIe Gen 5 configurations to ensure constant throughput during massive model parameter computations.
Hyperscale environments prioritize rack space optimization, low PUE, and simplified server management. Applying OCP design paradigms eliminates decorative plastic cowlings and individual server fans, replacing them with centralized, high-volume fan assemblies located at the rear of the rack. This simplifies internal chassis layout, allowing rapid hot-swappable replacements while reducing localized vibration issues.
Deploying high-power servers in industrial or remote edge nodes requires shorter mechanical chassis depths and dust-resistant builds. Veltron's shallow-rack designs fit into space-constrained edge locations and telco rooms without restricting processing power. By offering customizable options for front-access I/O connections, technicians can inspect and wire network terminals with minimal disruption.
Integrating standard server designs with custom security and local networks requires robust firmware and hypervisor support. Veltron’s computing solutions are pre-tested with leading enterprise virtualization packages (VMware ESXi, Hyper-V, and Proxmox). This provides smooth virtualization performance, scalable storage layouts, and highly secure cloud operations.
Essential considerations when auditing suppliers of open-compute components and high-performance server architectures.
When selecting an OCP hardware supplier in China, global procurement teams must look past basic unit costs and assess long-term operation, compatibility, and compliance structures. Here is our recommended audit checklist for enterprise procurement:
| Audit Vector | Critical Requirements | Veltron Compliance Standard |
|---|---|---|
| Thermal & Power Testing | Verification under extended ambient loads (+35°C to +40°C) simulating restricted airflow environments. | Full burn-in testing and thermal analysis conducted on 100% of outgoing racks. |
| Firmware Sovereignty | Avoidance of proprietary vendor lock-in. Support for OpenBMC, standard Redfish APIs, and customizable BIOS. | Flexible integration with OpenBMC firmware options and customized enterprise BIOS configs. |
| Supply Chain Transparency | Trackable source components for storage media, power modules, controller chips, and raw PCBs. | Direct global sourcing partnerships with tier-1 component silicon fabricators. |
| Warranty & Support | Clear hardware replacement programs, standard SLA levels for spare parts, and remote engineering help. | Localized partner support channels with direct engineering escalation pipelines. |
By requiring these standards during the validation phase, enterprise buyers reduce the risk of deploying hardware that does not integrate well with pre-existing datacenter orchestration layers.
Ensuring hardware imports meet global regulatory standards, emission constraints, and localized technical setups.
Our facility maintains strict compliance with ISO9001 and ISO14001 guidelines. Our server configurations carry standard certifications—including CE, FCC, RoHS, and CCC—enabling smooth integration into datacenters across North America, Europe, and Asia.
Our customization process goes beyond physical design. We work with clients to flash specific BMC firmware versions and localized network setups. This ensures new hardware blends smoothly into existing network monitoring software and management hubs.
Security is vital for modern datacenters. We implement clean, trace-recorded assembly steps, keeping detailed records of each component’s serial number. This safeguards physical component paths and ensures secure hardware delivery for our customers.
Detailed technical answers to help enterprise buyers configure, source, and deploy OCP-compatible hardware solutions.
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