NexGPU
NexGPU
Discover our primary lineup of industry-leading rack servers, AI accelerator configurations, and enterprise high-density compute nodes optimized for virtualization, software-defined storage, and high-performance computing.
Founded in 2017, NexGPU Intelligent Computing Technology Co., Ltd. has grown to become a premium, specialized manufacturer specializing in GPU servers, high-performance computing (HPC) systems, next-generation AI computing infrastructure, and customized server deployments. Headquartered in Shenzhen, China, our advanced manufacturing facility covers over 380 square meters and is equipped with cutting-edge automated assembly lines, high-temperature environmental burn-in rooms, and strict quality control verification testing hardware.
With more than 9 years of deep industry expertise and 7 years of export management experience, NexGPU has developed into an essential supplier for enterprises, hyperscale cloud service providers, scientific research institutions, AI laboratories, and system integrators worldwide. Our annual export revenue has surpassed USD 18 million, delivering reliable, high-performance IT equipment to customers across North America, Europe, Southeast Asia, the Middle East, and Oceania.
As organizations navigate the complexities of digital transformation, standard three-tier datacenter architectures are rapidly giving way to software-defined hyperconverged systems. This shift is driven by the urgent need for agility, linear scalability, and reduced total cost of ownership (TCO).
Global procurement teams prioritize platforms that virtualize compute, storage, and networking layers under a single management plane. By abstracting the hardware layer, enterprises eliminate vendor lock-in and optimize resource utilization.
Modern networks require edge processing. Multi-node hyperconverged platforms facilitate seamless deployments in localized branch offices, retail hubs, and manufacturing facilities, allowing effortless scalability by adding nodes.
The sudden rise of large language models (LLMs) like DeepSeek requires massive compute clusters. Hyperconverged topologies now incorporate high-density GPU virtualization, processing intense model fine-tuning alongside transactional databases.
| Comparison Metric | Legacy Three-Tier Infrastructure | Modern Hyperconverged Infrastructure (HCI) |
|---|---|---|
| Hardware Integration | Discrete compute servers, SAN fabrics, and dedicated storage arrays. | Unified x86/x64 nodes hosting compute, storage, and hypervisors. |
| Deployment Velocity | Weeks to months (complex cabling, zoning, and LUN provisioning). | Minutes to hours (automated scale-out node discovery). |
| Scalability Mode | Fork-lift upgrades (disruptive physical system swaps). | Linear, non-disruptive scale-out (add nodes on demand). |
| Management Toolset | Multiple vendor management consoles and CLI interfaces. | Single unified dashboard for virtualization and physical assets. |
NexGPU designs and manufactures hyperconverged systems tailored to meet the demanding requirements of various industry sectors, ensuring low-latency processing and solid reliability.
Leveraging high-capacity GPU systems to aggregate and process vast HD video streams. Our systems run deep learning classification models at the edge to enable responsive public security networks, automated traffic flow optimization, and advanced parking infrastructure operations.
Providing custom liquid-cooled hyperconverged clusters that support multiple accelerator modules. Researchers can deploy GPU-virtualized environments for training massive neural networks, parsing genomic sequencing data, and running fluid dynamics simulations.
Scaling thousands of Virtual Desktops (VDI) without performance degradation. With software-defined storage algorithms built directly into the hypervisor layer, system administrators maintain control over compute limits and IOPS allocations.
At NexGPU, we recognize that staying at the forefront of hyperconverged infrastructure technology demands rapid R&D iteration. Each year, our engineering team launches more than 80 new product upgrades and architectural revisions. Our technological development focuses on four main engineering paths:
Modern hyperconverged databases mandate extremely high IOPS (Input/Output Operations Per Second) and microsecond latencies. We design our server mainboards with native PCIe Gen 5 routing, allowing NVMe SSD arrays to interface directly with CPU sockets. This architecture bypasses legacy bottlenecks, enabling fast storage access and high data throughput.
As system power requirements escalate with high-end multi-core CPUs and dense GPU computing arrays, managing heat dissipation is crucial. NexGPU engineers utilize advanced liquid-cooling systems, structured airflow channels, and high-CFM variable fans to maximize cooling efficiency while keeping power consumption low.
HCI environments run numerous virtual machines on a single physical node, making memory bandwidth key. By integrating DDR5 memory subsystems operating at speeds up to 4800MHz and beyond, our infrastructure prevents bottlenecks, ensuring responsive performance during peak database transaction loads.
To accommodate AI inference workloads like DeepSeek, our platforms support vGPU virtualization software. This technology partitions physical GPUs into virtual profiles, allowing multiple compute-intensive AI operations to run in parallel on a single physical host, improving efficiency.
NexGPU maintains strict manufacturing and testing protocols. Every system we produce is built to withstand continuous enterprise workloads, ensuring reliable operation over a long lifespan.
Every node undergoes a continuous 72-hour dynamic thermal burn-in cycle inside specialized high-temperature rooms. This rigorous testing helps identify and replace weak components before the servers are packaged for shipping.
Supported by a network of over 1,200 strategic supply partners, NexGPU ensures steady access to premium components. This strong network helps prevent supply disruptions and ensures consistent build quality for every batch.
Our Quality Assurance team consists of more than 45 experienced inspectors. They supervise every stage of production, including incoming component inspection, system assembly, firmware flashing, and final export checks.
We believe in transparent manufacturing. Here is an authentic look inside our advanced assembly zones, product development centers, and system validation lines located in Shenzhen, China.
Get answers to standard technical, operational, and logistics questions about sourcing hyperconverged servers and custom infrastructure from China.
We offer comprehensive hardware and software customization. This includes custom memory capacity setups, storage drive mixes (NVMe/SATA/SAS SSDs), thermal and cooling adjustments, custom chassis branding with company logos, specialized firmware optimizations (BIOS/UEFI settings for specific hypervisors), and pre-integrated rack deployments.
Our R&D team verifies our servers against popular hypervisors and software-defined storage solutions, including VMware vSphere/vSAN, Proxmox VE, Microsoft Hyper-V, Nutanix AHV, and Ceph. This testing helps ensure stable driver support and performance out of the box.
We use double-reinforced packaging for international shipments. Servers are wrapped in anti-static ESD bags, cushioned by custom-molded high-density polyethylene (PE) foam, and packed inside thick corrugated boxes. For large shipments, we secure cartons on wooden pallets using heavy-duty strapping and stretch wrap to ensure they arrive safely.
For standard configurations, production takes 7 to 10 working days. Custom OEM/ODM orders requiring design adjustments or custom branding generally take 15 to 25 working days. Shipping times vary by destination, ranging from 5 to 7 days for air freight and 20 to 35 days for sea freight.
We offer a standard 3-year warranty on our main server systems. If a component fails within the warranty period, we ship replacements (such as drives, memory modules, power supplies, or fans) via express air courier to minimize system downtime.
Explore additional high-density compute systems, memory components, and solid-state storage solutions designed to optimize virtualized datacenters and performance-intensive workloads.
