Neuralinko
Explore our CE Certified, high-density server configurations designed for demanding AI workloads, storage arrays, and enterprise cloud networks.
In the era of hyper-scale computing, data gravity, system latency, and energy efficiency define the new competitive frontier for global enterprise operations. As modern organizations scale their cloud architectures and transition toward artificial intelligence workloads, the reliance on high-density server configurations grows exponentially. Standard consumer or off-the-shelf servers cannot withstand the relentless multi-tenant workload shifts required by Tier-3 and Tier-4 data centers.
At Neuralinko Intelligent Technology Co., Ltd., we sit at the intersection of AI hardware innovation and rigorous compliance standards. Our systems are engineered to prevent performance bottlenecking by maximizing the interconnect bandwidth between CPU registers, NVMe storage fabrics, and GPU acceleration blocks. Backed by CE compliance frameworks, our cloud servers ensure that European and global digital architectures run on platforms that minimize thermal signatures while maximizing output.
Neuralinko Intelligent Technology Co., Ltd. builds computing backbones for international enterprise markets, system integrators, and researchers.
Supporting tailored server chassis parameters, flexible GPU allocation configs, specialized BIOS/BMC firmware profiles, and complete private label packaging options.
Every node undergoes standard raw material checking, stress tests, dynamic component load profiling, long-duration burn-in, and ambient heat threshold testing.
With 118 dedicated engineers, Neuralinko developed and integrated 126 new structural and logical hardware configurations last year alone to meet evolving industry standards.
Exporting to highly regulated regions requires more than assembly; it requires comprehensive hardware verification and safety assurances.
For European system procurement managers, CE Certification is not an option—it is a legal gateway. Our servers conform to key Directives that assure trouble-free system life cycles:
Compliance underpins reliability. By conforming to these guidelines, Neuralinko guarantees server designs exhibit maximum resistance against input surge fluctuations and static damage, resulting in reduced operational downtime.
Customized hardware platforms matching specific enterprise workloads, compute profiles, and data-flow requirements.
Optimized for multi-tenant virtualization. These nodes feature dense, high-core-count CPU architectures, extensive memory footprint availability, and multi-GbE networking channels to handle rapid scale-up/scale-out events.
Purpose-built to support heavy GPU clusters (PCIe and SXM architectures) running advanced modeling programs like DeepSeek. Specialized PCIe switches facilitate high-bandwidth, direct peer-to-peer memory paths between cards.
Engineered for physical simulations, financial calculations, and medical modeling. High clock speeds coupled with low-latency InfiniBand cards allow these configurations to resolve complex numerical models with minimal latency.
To stay ahead of global performance demands, Neuralinko actively develops system revisions designed to meet next-generation power densities and storage rates:
Reducing standard air cooling dependency to support high-density configurations, lowering overall Data Center Power Usage Effectiveness (PUE).
Enabling dynamic memory pooling across processors to minimize latency gaps and increase application throughput speeds.
Delivering double the interface bandwidth over PCIe 5.0 to handle real-time AI and LLM workloads without data starvation.
Every server system leaves our modern 386㎡ production facility only after passing strict quality benchmarks.
We collaborate with over 1,200 verified supply chain partners. Raw components undergo automated optical inspection (AOI) to verify structural integrity before assembly.
Server builds are run under 100% operational workloads inside high-temperature chambers, allowing engineers to identify potential component vulnerabilities early.
Dual-socket interfaces, memory slots, SAS/SATA channels, and high-speed fiber-optic linkages are tested under maximum load to prevent operational bottlenecks.
Answers to critical questions asked by procurement teams and data center architects during evaluation.
Scale storage resources, enterprise memory systems, and localized server clusters using our standard hardware components.