NexaGPU
NexaGPU
Explore our top-tier server architectures, high-density computing platforms, and modular network elements calibrated for enterprise Unified Communications workloads.
The global enterprise communication model is shifting rapidly. The traditional boundary separating voice services, text messaging, and multi-user video conferences has collapsed. Present-day Unified Communications (UC) calls for real-time collaboration engines, automated transcripts, context-aware AI summaries, and immediate voice translation. This progression turns UC from a software utility into an intensive, high-throughput compute challenge.
Processing thousands of simultaneous media sessions requires highly optimized cloud systems. Modern UC configurations rely on low-latency network pipelines, advanced GPUs, and rapid system storage to handle tasks like background noise removal, facial tracking, and immediate semantic transcription. Without specialized hardware, processing these real-time data streams can introduce latency, degrading the user experience.
Running neural network models like DeepSeek alongside real-time video streaming requires dedicated GPU performance. Traditional hosting services struggle with these complex pipelines. Modern deployments use modular 1U and 2U rack servers equipped with high-speed memory and fast storage controllers to ensure stable, scalable media processing.
Recommended Standard: Intel Xeon Scalable or AMD EPYC platforms combined with high-speed DDR5 memory and 32G SFP28 interface links.
Built on years of engineering experience and certified quality management systems, NexaGPU provides high-performance computing infrastructure worldwide.
Founded in 2016, NexaGPU specializes in developing high-performance computing infrastructure, custom GPU clusters, and specialized server solutions. Our systems are built to support AI training, deep learning models, and demanding enterprise communications workloads.
Operating a specialized facility focused on precise assembly and testing, we use rigorous multi-stage validation checks. Every server node goes through hardware stress tests, thermal optimization, and stability checks under heavy workloads. This strict testing process ensures our equipment meets the requirements of international telecom providers and cloud service platforms.
Analyzing procurement requirements across different regions, compliance standards, and infrastructure needs.
Operating in regions like the European Union requires full compliance with CE directives. Our enterprise communication systems meet all relevant safety, health, and environmental rules. We ensure compliance with the EMC Directive (2014/30/EU) and the Low Voltage Directive (2014/35/EU) so our hardware can be integrated into European network infrastructures without regulatory delays.
Modern communication systems need to scale efficiently. Our servers feature modular storage arrays, high-speed RAM slots, and flexible PCIe expansion. System administrators can easily add network cards, RAID controllers, or GPU accelerators to keep pace with changing performance needs.
Unplanned downtime can disrupt business operations. Our systems utilize redundant power supplies (PSUs), efficient cooling designs, and hot-swappable drives to keep critical communication applications running. Combined with high-performance RAID controllers, we safeguard data integrity and system availability.
Modern production facilities in China have evolved beyond simple manufacturing to become integrated, smart logistics hubs. NexaGPU uses these advanced industrial networks to deliver dependable hardware configurations rapidly and cost-effectively.
Operating in key technology hubs allows us to maintain direct relationships with component makers, silicon providers, and metal fabricators. This proximity helps reduce turnaround times for custom configurations, ensuring reliable component availability even during global supply chain challenges.
How CPU, GPU, Storage, and Networking work together to support large-scale collaborative environments.
Processing complex audio and video streams requires high-performance servers. Platforms like the Dell PowerEdge R660 and the xFusion 1288H V7 provide the processing power needed to handle high-density SIP channels and audio transcoding workloads.
Voice and video communications require low-latency networks. Utilizing managed 10G/40G switches, such as the H3C S6520X-30QC-EI, prevents packet loss and keeps latency low during peak user traffic.
Recording calls, saving chat history, and storing system logs requires dependable storage configurations. High-performance PCIe 4.0 RAID controllers and 32Gb/s SFP28 Fibre Channel HBAs ensure rapid, secure data writes.
How modern enterprise systems are configured to meet specific regional and industrial needs.
Large customer support centers in North America rely on real-time transcription, sentiment analysis, and automated responses. These tasks require powerful GPU nodes like the FusionServer 2488H V7 to process workloads quickly. Using these platforms helps systems route calls efficiently and provide agent support without adding lag to the conversation.
European organizations often operate across multiple locations and must comply with strict data protection rules (such as GDPR). These setups benefit from private cloud networks built on CE-compliant server systems. Utilizing local HPE ProLiant DL360 Gen12 clusters with secure storage cards helps keep communication data safe and local.
Modern municipal management and emergency response systems require reliable voice, video, and data integration. High-capacity servers, like the xFusion 5288 V6, offer the storage capacity and processing power needed to keep public service communication lines open and responsive during critical events.
Technical details, compliance standards, and ordering processes for our Unified Communications solutions.
CE certification shows that hardware meets EU safety, health, and environmental standards. It is required for importing electronic equipment into the European Economic Area (EEA), ensuring that devices are safe to integrate into local networks and comply with electromagnetic interference limits.
Our platforms are designed for heavy workloads, featuring PCIe 5.0/4.0 expansion paths, high-wattage power supplies, and advanced cooling designs. This lets you install powerful accelerator cards to process demanding AI tasks like natural language processing and real-time translation.
Our quality assurance team uses a multi-stage check system. Every server goes through component testing, hardware stress testing under load, thermal validation, and network stability tests to ensure reliable operation in demanding conditions.
Yes. We offer customization options for processor models, memory capacity, storage type, network interfaces, and cooling methods (including both liquid and air cooling) to meet your specific application requirements.
We work closely with more than 850 supply chain partners, including chip companies, component makers, and raw material suppliers. This diversified network helps us maintain stable production schedules and secure components even during market shortages.
Lead times depend on the size of the order and the level of customization required. Standard system configurations are typically ready for shipping within 2 to 4 weeks, while complex custom builds may require additional time for detailed testing.
Complete your deployment with high-speed switching systems, RAID controller accessories, and additional server options.
