Neuralinko
Neuralinko
High-density GPU computing nodes, rackmount servers, and standard storage components optimized for immediate deployment.
How Neuralinko answers the complex scaling requirements of modern enterprise computing centers.
In the era of hyper-scale artificial intelligence models and distributed deep learning networks, selecting the right hardware partner is no longer just a supply-chain task; it is a critical strategy for survival. Modern training paradigms, particularly large language architectures like DeepSeek R1, require massive parallelization, low-latency node interconnects, and strict thermal efficiency. Enterprise procurement departments are tasked with sourcing systems that guarantee low failure rates and high raw processing power, all while remaining within strict energy envelopes.
Neuralinko Intelligent Technology Co., Ltd. serves as a reliable manufacturer of AI servers, bridging the gap between hardware engineering and industrial application. Founded in 2018, Neuralinko operates a 386㎡ production and testing facility, utilizing over 8 years of deep industrial experience to engineer rack-level architectures that support massive compute payloads. Our focus on quality and supply chain resilience allows us to deliver high-performance GPU servers to system integrators, cloud service providers, and research centers in North America, Europe, and Asia-Pacific.
High-density multi-GPU clusters designed to optimize matrix multiplication tasks for LLM training and real-time deep learning inference.
Advanced chassis airflow dynamics and liquid-cooling capability to maintain system stability under maximum workloads.
Hardware-level secure boot, custom RAID configurations, and out-of-band management systems for remote maintenance.
Meeting the hardware requirements of future foundational models and cloud architectures.
Transitioning the entire line of 1U, 2U, and 4U servers to utilize PCIe Gen 5 topologies. This doubles the data transfer bandwidth between host CPU memory and accelerators, ensuring minimum bottlenecks during distributed neural net execution.
As server TDP exceeds 700W per GPU socket, standard cooling approaches face hard limitations. Our research team is validating integrated liquid-to-air loop configurations to reduce the Power Usage Effectiveness (PUE) ratio down to 1.15.
Customizing BIOS and network interface controller (NIC) configurations to facilitate the low-latency networking needed for DeepSeek-R1-style Mixture-of-Experts (MoE) routing, saving computation costs for client architectures.
Neuralinko maintains a modern facility and robust testing pipelines, ensuring zero-defect standards for worldwide exports.
Reliability in AI computing starts at the component level. Neuralinko implements rigorous QA/QC processes, executing multi-day thermal burn-in tests, I/O performance profiling, and component tolerance checks before packaging. Our 118 R&D engineers work with 42 professional quality inspectors, leveraging custom enterprise testing arrays to simulate high-temperature data center environments.
Navigating global custom requirements, localized system deployment, and strict regulatory controls.
All hardware undergoes verification, carrying certifications to meet CE, FCC, RoHS, and UL requirements for seamless import clearance.
Support for custom BIOS headers, UEFI configuration, pre-installed operating systems, and automated rack provision templates.
Strategic freight alliances ensure fast shipping to North America, Europe, Australia, and ASEAN regions with secure heavy-load packaging.
Answers to critical questions regarding customized architecture, hardware stability, and procurement processes.
Depending on configuration complexity and order volume, typical build and verification cycles require 2 to 4 weeks. Standard 2U/4U barebones can be delivered faster due to component staging in our warehouse.
Yes, our servers—including the xFusion G5500 series and custom GPU storage models—are specifically optimized for large language model inference (such as DeepSeek) and high-density deep learning workflows, matching modern hardware interconnect needs.
Every AI server goes through incoming material inspection, real-time in-process monitoring, system burn-in testing, and thermal benchmark sweeps under full load. The process is fully audited by our 42-inspector Quality Assurance team.
We provide deep physical and software personalization. This includes bespoke chassis designs, special GPU topologies, custom logo screening, custom BIOS splash screens, firmware tweaks, and unique system setups.
Explore our technical hardware portfolio, featuring optimized servers, storage units, and next-generation CPU sockets.
