Veltrixa
Veltrixa
Examine our top-tier server clusters, networking switches, and enterprise storage arrays engineered for maximum processing efficiency and high durability.
Tracing the architectural pivot from virtualization pools to distributed compute frameworks optimized for massive LLM training and scale-out workloads.
The global digital economy has reached an inflection point. Cloud-ready infrastructure is no longer defined merely by its virtualization compatibility, but by its capacity to ingest, route, and calculate high-density computational matrices in real time. Organizations worldwide are executing a rapid shift towards unified architectures. These systems must seamlessly blend traditional enterprise applications with next-generation deep learning networks, such as DeepSeek and other open-weights large language models.
In highly industrialized areas, data centers are actively converting traditional CPU racks into highly efficient heterogenous computing structures. Key components driving this migration are 2U and 4U multi-GPU servers, PCIe Gen 5 configurations, and low-latency optical switches. This combination guarantees that bottlenecks in inter-node communications are eliminated, resulting in superior performance metrics.
Furthermore, cloud-ready architecture requires high-density storage arrays that feature NVMe-over-Fabrics (NVMe-oF) technologies. Enterprise environments need arrays that handle massive datasets without latency peaks. By combining these advanced storage designs with smart NICs and L3 optical switches, network administrators can construct zero-trust, high-throughput private clouds. This enables them to run complex workflows with maximum structural efficiency and reliable continuous operation.
Discover the technical trends dictating the roadmap for next-generation GPU server platforms, thermal controls, and hardware optimization.
GPU clusters require extreme spatial and energy efficiency. Modern server setups are migrating to multi-socket, 4U form factors configured with specialized tensor cores. These systems enable native implementation of models like DeepSeek, utilizing ultra-fast interconnected fabrics to process tasks with minimal latency.
Traditional SATA storage systems are transitioning to hybrid setups with high-capacity NVMe drives. This structure uses remote direct memory access (RDMA) over Ethernet. As a result, it matches the throughput speeds of local drives, while offering the flexibility of centralized storage pools.
With power demands escalating beyond 300W per CPU socket, air cooling is reaching physical limits. Direct-to-chip liquid cooling loops and immersion setups are emerging as the industry standard. These designs lower power usage, extend server lifespan, and support high-density configurations in standard server racks.
Providing top-tier AI GPU servers, custom HPC platforms, and resilient storage networks out of Shenzhen since 2017.
Shenzhen Veltrixa Intelligent Computing Co., Ltd. is a leading manufacturer and solution provider specializing in AI GPU servers, high-performance computing (HPC) platforms, edge AI systems, and customized data center infrastructure. Established in 2017, the company is committed to delivering reliable, scalable, and high-efficiency computing solutions for enterprises, cloud service providers, AI startups, research institutions, and system integrators worldwide.
Located in Shenzhen, China, Veltrixa operates a modern production facility covering 386 m², equipped with advanced assembly, testing, and quality control systems. With a strong focus on innovation and customer satisfaction, we provide flexible OEM and ODM services tailored to diverse computing requirements.
Quality is at the core of everything we do. Veltrixa implements a comprehensive quality management system to ensure every product meets international standards and customer expectations.
Veltrixa continuously invests in technology innovation and product development to stay ahead in the rapidly evolving AI computing industry. Our team of 86 R&D Engineers specializes in board-level configurations, custom chassis cooling designs, and BIOS optimization for heavy workload processing.
Our solutions are designed for and trusted by:
Tailored technological configurations designed to overcome barriers in performance, scale, and integration across global sectors.
Implementing low-latency Edge AI Servers at base stations to run real-time anomaly detection and predictive routing algorithms. These systems process traffic spikes using high-throughput network cards and 10G optical switches.
Accelerating genomic sequencing models and volumetric MRI analysis. Our 4U GPU-dense rack systems host parallel execution workflows, reducing the time needed to compute complex medical image analyses from days to minutes.
Providing high-frequency trading platforms with ultra-low latency compute layers. These rack servers integrate PCIe flash storage alongside multi-core Xeon architectures, protecting transacting pools against packet loss.
A strategic preview of where hardware development is heading, and how Veltrixa is positioning its technology stack.
Over the next year, Veltrixa is prioritizing native firmware optimizations designed to accelerate DeepSeek architectures. This initiative focuses on custom BIOS updates. These updates optimize memory bandwidth allocation across high-performance GPUs, preventing bottlenecks during dense model inference.
Additionally, we are expanding our custom rack integration division, enabling clients to receive ready-to-run cluster systems configured to their software requirements.
In response to global sustainability mandates, Veltrixa's R&D division is standardizing liquid-to-air cooling options. These will be integrated across our entire product line, from 1U server frames to high-density GPU racks.
By using direct-to-die liquid loops, we aim to lower average power consumption ratios in client data centers by up to 25%, while maintaining optimal thermal baselines.
Get authoritative, technical answers to common questions about configuring, testing, and deploying enterprise servers.
Veltrixa uses custom airflow channels combined with hot-swappable counter-rotating cooling fans. Every server chassis undergoes strict thermal mapping and testing under full processing loads in our thermal chambers. This ensures consistent cooling performance, even with TDP ratings exceeding 300W per socket.
Yes, our systems are designed with open, industry-standard architectures. They support popular enterprise distributions, including Rocky Linux, Red Hat Enterprise Linux (RHEL), Windows Server 2025, VMware ESXi, and Proxmox VE. We also perform full validation testing on our storage arrays, network switches, and RAID cards to ensure seamless software integration.
Every server configuration undergoes 100% pre-shipment inspections. This process includes functional checks, high-temperature burn-in testing, network packet validation, and memory diagnostic tests. Our 46 QA team members review all results to ensure systems arrive ready for deployment.
Yes. We provide complete hardware customization, including private labeling, customized BIOS configurations, and specific PCI slot layouts. Our R&D team can design and build custom compute solutions tailored to your workload requirements.
We use advanced RAID controllers (such as the XC170-M-8i SAS/SATA card) that support 12Gb/s data transfer rates. This configuration enables rapid read/write speeds, high data availability, and stable performance for enterprise storage networks.
Review our selection of mid-range, deep-storage, and high-performance server options designed to easily integrate with your existing infrastructure.
Visual verification of our assembly, testing, and distribution centers located in Shenzhen, China.
