NexCore
NexCore
Explore our selected lineup of high-performance servers, Fibre Channel host bus adapters (HBAs), and network accelerators built to manage hyper-converged workloads, enterprise database operations, and real-time deep learning pipelines.
Modern telecommunication networks are no longer simple conduits for voice and baseline data transit. The digital economy now sits at the intersection of 5G/6G communication backbones, multi-access edge computing (MEC), and high-performance hyperscale server infrastructure. As artificial intelligence models scale from billions to trillions of parameters, telecommunication infrastructure and enterprise servers must operate in tight synchronization.
Global data demands require robust networks to deliver low latency, high throughput, and fault-tolerant computing capability. Storage networks relying on Fibre Channel technology—such as the 32GFC standard cards—and specialized high-speed SAS storage routing controllers are crucial. They form the underlying architecture that enables neural network model weights to stream without bottlenecks. In key regions including North America, Western Europe, and Southeast Asia, telecommunication operators are upgrading localized server nodes to handle data directly at the edge, mitigating transport costs and satisfying strict localized data governance and compliance guidelines.
The convergence of high-capacity storage servers (such as NAS racks) and server systems built on the x86 and ARM architectures has created a highly unified hardware ecosystem. Hardware suppliers now offer servers optimized for specific software stacks. The integration of high-bandwidth Fibre Channel adapters directly with storage arrays ensures consistent input/output operations per second (IOPS), which is essential for relational databases, massive NAS configurations, and distributed storage systems.
In this environment, custom PCIe network cards, enterprise boot cards like the SAS3808, and GPU computation units (including accelerators like the V100 PCIe systems) are critical sub-components. A failure in any of these modules creates immediate downstream degradation, highlighting the need for hardware designed to rigorous standards of thermal dissipation and physical structural integrity.
Established in 2017 and headquartered in the primary technological hub of Shenzhen, China, NexCore Intelligent Technology Co., Ltd. is a professional AI server manufacturer and end-to-end computing solution provider. Operating a modern, highly optimized production facility covering 386 square meters, the company designs, develops, and manufactures high-performance GPU servers, AI training systems, deep learning inference configurations, High-Performance Computing (HPC) platforms, and custom-tailored enterprise computing infrastructure.
With more than 9 years of domain-specific industry experience and over 6 years of direct international export operations, NexCore has established a strong reputation for delivering reliable and highly scalable computing systems to a diverse international client base. Today, NexCore serves primary clients across North America, Europe, Southeast Asia, the Middle East, and Oceania. The company maintains an annual export revenue of approximately USD $18 million, demonstrating its capacity to execute large-scale, high-value corporate orders.
The efficiency of China's advanced manufacturing hubs, particularly within the Shenzhen industrial corridor, represents a significant competitive advantage for global buyers. Shenzhen hosts a dense concentration of raw component manufacturers, printed circuit board (PCB) fabricators, precision metal chassis designers, and advanced assembly lines. This allows companies like NexCore to source and integrate sub-components rapidly, drastically reducing lead times compared to Western assembly plants.
To manage these resources, NexCore utilizes its network of over 1,250 supply chain partners, ensuring component availability even during global semiconductor shortages. However, speed is worthless without strict reliability. NexCore maintains a rigorous quality management system overseen by a dedicated team of 46 quality control (QC) specialists. All products must pass a comprehensive testing protocol, which includes:
Our server solutions are deployed in various environments, showing adaptability across diverse workloads. Understanding these applications helps enterprise procurement teams match hardware specifications to specific operational requirements.
With platforms like DeepSeek AI requiring massive hardware performance, our GPU servers and high-density computing nodes provide the necessary memory bandwidth and parallel processing capabilities to run LLMs efficiently.
Integrating edge band management configurations directly on cards (like the SAS3808 BootCard) enables telcos to manage hardware health and RAID storage integrity at remote, unmanned cell tower sites.
By deploying dual-port 32GB FC32 HBA cards, financial systems, medical databases, and media production networks can eliminate latency bottlenecks between servers and centralized NAS arrays.
Global IT procurement teams, system integrators, and data center operators require flexible hardware partners capable of adapting to specific technical constraints. Standard off-the-shelf equipment often fails to meet the exact spatial, power distribution, thermal, and configuration needs of modern data halls. That is why NexCore prioritizes R&D innovation and OEM/ODM customizable capabilities as core elements of our service model.
Our engineering department is comprised of 128 experienced specialists in server architecture, thermal dynamics, component layout, and firmware coding. During the past year alone, our research efforts resulted in the launch of 86 new systems and configurations. We work directly with client representatives to customize:
Tailoring systems to run specific quantities of modern accelerators, with optimized PCIe lane allocation.
Developing 1U, 2U, 4U, or custom footprint chassis optimized for specific rack configurations and depths.
Designing hybrid SAS, SATA, and NVMe setups with dedicated hardware RAID or edge management options.
Integrating specific Fibre Channel HBAs, SFP28 optical modules, and BIOS branding services.
Detailed technical responses to help engineering and procurement leads select hardware and navigate international supply chains.
We use a rigorous QC workflow with 46 quality inspectors. Before leaving our Shenzhen facility, every rack server, HBA card, and storage array undergoes automated component validation, system integrity testing, and thermal testing. This is followed by a continuous burn-in procedure of up to 48 hours to minimize infant mortality rates in the field. Products are shipped using customized shock-absorbing packaging designed for global logistics.
Edge Band Management enables operators to monitor, configure, and debug the boot drive array out-of-band (OOB) without needing to access the main host operating system. This is crucial for remote edge installations, telecommunication towers, and branch data centers where local IT personnel are not available, allowing remote recovery and status diagnostics.
Yes. Our 128-engineer R&D team can develop custom chassis profiles (1U, 2U, 4U, short-depth) to fit unique spatial limits, cooling constraints, or custom power distribution units. This includes options for custom structural branding, front-panel access layouts, and specialized hot-swap bay configurations.
Shenzhen has a dense concentration of passive component suppliers, PCB fabs, and sheet metal manufacturers. This proximity enables NexCore to complete prototype and manufacturing iterations quickly. Supported by our network of over 1,250 partners, we can source and configure custom builds much faster than standard facilities.
Yes. Our hardware lines include high-density GPU server setups, like the G5200 V5, and PCIe expansion frameworks compatible with standard acceleration cards. These systems are designed to provide the necessary thermal headroom, power delivery, and high PCIe lane counts required for low-latency deep learning training and inference pipelines.
Browse our secondary selection of computing nodes, enterprise storage units, and next-generation cloud architectures designed for high dependability in mission-critical deployments.
