NexGPU
NexGPU
Select production-ready configurations engineered for hyper-scale cloud applications and virtualized datacenters.
Founded in 2017, NexGPU Intelligent Computing Technology Co., Ltd. is a leading global OEM/ODM cloud infrastructure designer and manufacturer specializing in GPU servers, high-performance computing (HPC) nodes, and customized rack infrastructure solutions. Strategically headquartered in Shenzhen, China's core electronics capital, we operate a highly specialized modern production center covering over 380 square meters. Our state-of-the-art facility integrates automated hardware assembly lines, extensive burn-in testing chambers, and sophisticated quality control systems.
With a comprehensive industry presence of over 9 years and 7 years of strategic global export experience, NexGPU has emerged as a premier system integration partner. We serve Tier-2 cloud service providers (CSPs), global enterprise datacenters, research institutions, AI startups, and system integrators. By maintaining deep strategic partnerships across 1,200+ technology and silicon vendors, we facilitate seamless custom deployments that scale to match the digital demands of modern computing.
Macro industrial trends require customized hardware to balance power efficiency, physical footprint, and compute density.
The emergence of modern Large Language Models (LLMs) like DeepSeek, GPT-style transformers, and complex neural networks has drastically altered datacenter thermal envelopes and power distribution architectures. Off-the-shelf whitebox servers often fail to deliver the thermal thresholds, PCIe lane configurations, or network topology required to prevent compute bottlenecks.
As a dedicated OEM/ODM supplier, NexGPU tackles these pain points directly. We tailor the server chassis, power delivery systems, and system boards to provide ideal structural layout configurations. Our system-level engineering reduces overall parasitic power consumption (PUE) at the containerized rack level, maximizing GPU-to-CPU connectivity bandwidth via optimized PCIe Gen 5 and Gen 6 slot alignments.
From the initial L6 (barebone server component) stage up to L11 (fully loaded rack and integration services), our engineering protocols target workload-specific parameters. We offer optimization for dense GPU clustering, massive scale NVMe storage clusters, and high-frequency virtualization environments.
Tailoring mechanical, electrical, logical, and software properties to match your precise application stack.
We build customized 1U, 2U, 4U, and modular multi-node enclosures. Thermal engineers execute dynamic CFD simulations to customize fan placement, duct layouts, and passive heat sink configurations, resolving hotspot issues in high-wattage computing platforms.
We provide full customization of AMI/Insyde BIOS configurations and ASPEED AST2500/AST2600 BMC code. Enable custom fan-curve profiles, system diagnostic modes, localized IPMI commands, and secure platform boots tailored for cloud platforms.
Accelerate localized integration. We assemble components, integrate high-capacity power systems, deploy structured cabling systems, configure virtual network switches, and upload custom hypervisors or OS distributions to deliver turn-key deployments.
Operating in high-availability environments means datacenter hardware must achieve 99.999% system uptime. At NexGPU, reliability is integrated into our manufacturing framework. Every server board, storage drive (including enterprise PM893 SSD arrays), and power delivery unit undergoes multi-step quality control audits.
Our dedicated Quality Control department comprises over 45 experienced inspectors. They perform thorough thermal validation, comprehensive signal-integrity verification, compatibility diagnostics, and structural stress testing inside environmental chambers prior to release.
A comparison of baseline chassis setups developed to support global compute virtualization and AI tasks.
| Server Model Series | Processor Architecture | Storage System Capacity | Hardware RAID Support | Optimal Applications |
|---|---|---|---|---|
| FusionServer 2288H V6 Series | Intel Xeon Scalable (Dual Socket) | Up to 24x 2.5" SAS/SATA/NVMe | PCIe 4.0 SAS Controller (9540-8i) | Enterprise Virtualization, Large Databases, Private Cloud Nodes |
| FusionServer Pro 1288H V7 | Next-Gen high density systems | 8x 2.5" SAS/SATA/NVMe Arrays | Hardware SAS RAID Controller Config | DeepSeek AI Deployments, Distributed Storage, High-Speed NAS |
| FusionServer 2488H V6 Series | Xeon Multi-Socket (4 Sockets) | 25x 2.5" high-density drive bays | Integrated redundant storage controllers | In-Memory Computing, SAP HANA, Large Scale Virtual Machine Pools |
| FusionServer 2258 V7 Series | Dual-Socket Performance Nodes | 12x 3.5" High Capacity Storage Bays | SATA/SAS Hybrid Controller | Mass Data Archival, Distributed Compute, Media Transcoding |
Navigating global regulatory landscapes requires a compliance-first manufacturing partner. NexGPU maintains compliance across major global markets, assuring our cloud servers meet CE, FCC, RoHS, and UL safety standards. This simplifies deployment in North America, Europe, APAC, the Middle East, and Oceania.
Our supply chain strategy leverages over 1,200 verified industrial partner networks. This helps insulate our production lines from unexpected component shortages and geopolitical disruptions, ensuring consistent pricing and reliable lead times for global projects.
Additionally, we offer customized localization programs, including custom region-specific AC cabling, localization of BIOS system displays, target-market shipping documentation, and onsite integration assistance to help streamline deployment processes.
Our active focus in R&D is geared toward reducing environmental footprints and accelerating high-speed interconnects.
To support high-density configurations, our team is developing Direct-to-Chip (D2C) liquid cooling solutions and closed-loop liquid-to-air cooling manifolds that integrate into standard server racks.
We are actively testing early motherboards optimized for PCIe Gen 6.0 lanes, doubling data throughput speeds to minimize latency between storage devices, GPUs, and interconnect fabrics.
We are aligning our system templates with Open Compute Project (OCP) requirements, utilizing recycled alloys and designing power systems that maximize efficiency under partial load conditions.
Frequently asked technical and operational questions regarding custom server design and delivery.
MOQs depend on the level of customization. Basic customizations like branding, minor chassis modifications, or bios logo configurations can start from 10 units. Advanced custom developments requiring custom sheet-metal designs, unique motherboard designs, or specific layout configurations typically require 50 to 100 units depending on the engineering complexity.
NexGPU provides dedicated lifecycle support for all custom systems. We deliver validation updates for firmware components, including safety adjustments and compatibility patches, for up to 5 years after release. Customized BMC firmware options, like specific SNMP sensors or custom API hooks, can be designed by our engineers.
Yes. Our systems are built to meet industry-standard slot specifications. We test compatibility with major enterprise storage options (including PM897, PM893, and Intel SSDs) and popular raid cards (such as LSI 9540-8i SAS RAID controllers) to ensure stable compatibility with components you source yourself.
Each GPU compute node undergoes extensive validation under load. We subject the systems to temperature cycles up to 40°C while running stress-testing software. This validates the system's electrical stability, power components (900W to 2000W PSUs), and thermal configuration before we pack and ship the products.
We provide multiple global shipping options, including direct airfreight, ocean freight, and consolidated shipments, ensuring correct custom declarations. For L11 rack projects, we utilize special pallet shipping methods to ensure the systems arrive ready to install without damage.
Yes. We can customize the system power configurations to match different datacenter requirements, supporting dual 110V inputs, high-voltage 240V configurations, and specific plug standards, ensuring compatibility with your current power cabinets.
Complete your infrastructure design with high-durability storage units, controllers, power supplies, and customized nodes.
