NexoraGPU
NexoraGPU
Our premier high-throughput infrastructure builds designed for Swedish deep learning laboratories, enterprise hybrid clouds, and real-time inference systems.
Sweden is rapidly positioning itself as the technological epicenter of the Nordic region, driving large-scale initiatives in machine learning, industrial automation, and climate research. With the expansion of major computational infrastructure such as the EuroHPC regional installations and the AI Sweden consortium, the country requires scalable, high-throughput GPU infrastructure.
Industrial powerhouses in Stockholm, Gothenburg, and Linköping are shifting from traditional CPU-reliant calculations to massive parallel processing arrays. These arrays are critical for running heavy Deep Learning (DL) algorithms, natural language processing models (such as LLMs optimized for Swedish and regional dialects), and complex fluid dynamics for aerospace and automotive engineering. Swedish companies leverage GPU acceleration to maintain a competitive advantage in global markets.
Furthermore, Sweden’s national target of fossil-free electricity and carbon neutrality has made energy efficiency a paramount requirement. Datacenter operators in regions like Boden and Luleå benefit from naturally low ambient temperatures and abundant hydro-power, allowing for highly efficient, cold-climate operations. However, to extract maximum utility from these locations, local enterprises need hardware designed to minimize thermal waste while delivering unmatched compute density per rack.
Optimized exhaust airflow and fluid loop integration utilizing Sweden’s sub-zero seasonal temperatures to lower Power Usage Effectiveness (PUE).
Engineered hardware compatibility with deep neural network pipelines tailored for automotive telemetry (Scania/Volvo scale) and telecom research (Ericsson scale).
Exporting GPU servers to Northern Europe requires a deep understanding of local datacenter topologies. While high-density setups can create significant thermal management challenges elsewhere, Swedish datacenters are engineered for heat recovery. By capturing warm air from GPU exhaust manifolds, facilities feed district heating networks, warming local residential districts.
To facilitate this, NexoraGPU designs hardware configurations using hot-aisle containment principles. We utilize highly efficient, counter-rotating, pulse-width modulated (PWM) cooling fans that communicate directly with IPMI 2.0 system controllers. This dynamic thermal speed configuration prevents unnecessary electrical consumption, ensuring fans only draw peak current during intensive CUDA-core computing phases.
Furthermore, our custom GPU server chassis accommodate liquid cooling loops (direct-to-chip cold plates) and support high-viscosity thermal interfaces to ensure long-term stability. This decreases chip-level thermal throttling, allowing your NVIDIA H100, H200, or L40S arrays to sustain maximum boost clocks during heavy training phases without risk to hardware life.
| Chassis Standard | Thermal Design Power (TDP) Supported | Optimal Working Temp (Swedish Standards) | Integrated Heat Recovery Compatibility |
|---|---|---|---|
| 1U Ultra-Dense Compute | Up to 700W | 10°C to 28°C (Air) | High (Rear-Door Heat Exchanger) |
| 2U Enterprise Multi-GPU | Up to 1400W | 10°C to 30°C (Air) | Excellent (Direct-to-Chip Cold Plates) |
| 4U/8U Deep Learning Array | Up to 3200W+ | 10°C to 32°C (Hybrid / Liquid) | Optimal (Integrated Liquid loop outputs) |
Operating within the European Union means adhering to stringent regulatory requirements regarding data privacy and infrastructure resilience. With the implementation of the NIS2 Directive and ongoing compliance audits by Sweden's Integritetsskyddsmyndigheten (IMY), hardware-level security is no longer optional.
NexoraGPU integrates state-of-the-art Hardware Root of Trust (RoT) architecture directly into our motherboard layouts. System integrity is verified from the first line of boot code, preventing firmware hijack attempts or rogue hardware modifications. We support AMD Secure Encrypted Virtualization (SEV) and Intel Software Guard Extensions (SGX) across our dual-socket processor platforms to partition critical workloads safely.
Additionally, our customized systems feature self-encrypting storage (SED NVMe SSDs) and TPM 2.0 modules as standard options. This ensures that sensitive medical data processed in Uppsala research labs or financial datasets processed in Stockholm banking clusters remain completely secure, satisfying both localized compliance guidelines and wider EU regulations.
Every motherboard conforms to strict OEM security standards, featuring locked UEFI firmware channels and cryptographically signed patches to satisfy audit authorities.
Engineered hardware structures for cloud hosts in Sweden looking to deploy secure, isolated GPU environments for private client sandboxes.
Founded in 2017, Nexora Intelligent Technology Co., Ltd. (operating globally under the brand NexoraGPU) is a specialized developer and manufacturer of high-performance GPU servers, high-density AI computing arrays, high-performance computing (HPC) nodes, and large-scale data storage arrays. Operating from our advanced production and integration center spanning 386㎡, we design, configure, and validate complex, multi-layered computer hardware systems for global AI platforms, research institutes, aerospace centers, and cloud storage hubs.
With 9 years of deep industry experience and 6 years of export logistics operation, we have successfully developed structural export pipelines to complex markets across Europe, North America, and East Asia, posting an annual export value exceeding US$18 million.
Quality assurance is the core of our operations. A team of 42 dedicated Quality Control (QC) engineers conducts thorough structural testing before any hardware components are cleared for export. We utilize a strict multi-phase verification protocol: component incoming inspection, pre-assembly system verification, 100% full-load dynamic burn-in testing, thermal throttling threshold analysis, power fluctuation resilience tests, and enterprise network throughput optimization. Every server shipped is issued a unique performance passport, verifying its reliability and performance stability.
Operating as an OEM & ODM manufacturer with direct export rights, we manage an extensive supply chain of over 1,250 certified partners. This robust network ensures steady, direct-from-fab procurement of critical semiconductor micro-architectures, backplanes, memory modules, and power units, protecting our Swedish clients from supply constraints and unexpected production backlogs.
Our innovation division comprises 128 expert engineers specialized in high-frequency circuit design, thermodynamic server chassis optimization, hyper-converged software setups, and AI workload balancing. In the last fiscal year alone, we deployed 86 new products, adapting rapidly to industry shifts in AI, deep learning, cloud-native storage, and real-time visualization platforms.
Managing international supply pipelines requires efficient logistical support. NexoraGPU utilizes premium shipping lanes to ensure prompt delivery to major hubs across Sweden, including Stockholm-Arlanda, Gothenburg, and Malmö. All heavy-duty server components are shipped in double-walled export crates with bespoke foam shielding, protecting components from transit vibration.
To ensure quick custom clearance, we provide complete compliance documentation, including CE certification papers, RoHS environmental declarations, and EU-compliant origin declarations. This minimizes transit delays, ensuring your server infrastructure arrives on time and ready for deployment.
Our complete range of server configurations optimized for AI, deep learning, enterprise NAS storage, and dense computing clusters.
Standard, off-the-shelf GPU nodes rarely meet the complex workloads of high-performance enterprises. NexoraGPU provides structural customization options tailored to your specific application requirements. Whether you require tailored PCIe Gen5 expansion topologies, custom storage arrays, or specific network cards, our engineering team is here to assist.
We offer server boards supporting single-root and dual-root configurations. For deep learning models with frequent, intra-GPU communications (such as large transformer arrays), we configure peer-to-peer PCIe layouts with PCIe switches, minimizing latency. For applications prioritizing storage throughput (such as real-time stream analysis), we optimize configurations for direct-to-CPU NVMe lanes, eliminating bottlenecks.
NexoraGPU also provides deep BIOS and IPMI-level customizations. We optimize system settings for particular hypervisors, adjust fan speed curves to match local datacenter noise regulations, and pre-load specialized operating systems. This ensures your hardware is ready for quick deployment straight out of the box.
Flexible slot mapping designed to support varying ratios of host controllers to accelerators, optimized for your workloads.
Pre-validated host environments supporting leading enterprise Linux platforms and optimized virtualization hypervisors.
Get in touch with our team of technical architects to configure custom GPU, memory, and cooling layouts optimized for your datacenter requirements.
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