NexaGPU
NexaGPU
Enterprise-grade server components, high-density server nodes, and acceleration hardware engineered for high-availability cloud deployments.
The global digital landscape is shifting rapidly. The exponential rise of high-parameter artificial intelligence models, massive IoT sensor telemetries, and distributed microservices has pushed traditional storage patterns to their limits. Modern businesses no longer view storage as mere passive archives. Instead, they require highly performant, ultra-low latency, and horizontally scalable storage fabrics that function seamlessly across hybrid-cloud ecosystems.
For cloud service providers, massive enterprise data centers, and multi-tenant hosting facilities, generic hardware options fall short. This is where custom OEM cloud storage solutions play a vital role. By tailoring storage architecture at the silicon, board, and firmware level, businesses can achieve specific performance goals, optimize thermal efficiency, and significantly reduce total cost of ownership (TCO).
Our solutions harness NVMe-over-Fabrics (NVMe-oF) using RoCE v2 or Fibre Channel to deliver latency numbers comparable to local PCIe connections across a unified SAN fabric.
Ready to run Ceph, MinIO, GlusterFS, or proprietary distributed filesystems. We supply hardware pre-validated for your preferred software-defined storage (SDS) layers.
Analyzing industry verticals and the structural demand for bespoke storage infrastructure globally.
Financial trading platforms and distributed ledgers demand zero data corruption and sub-millisecond block commit times. Our customized server platforms feature hardware-level RAID caching, super-capacitors, and NVMe-backed write buffers designed to secure transactional integrity at scale.
Training modern LLMs requires pipeline ingestion speeds exceeding tens of gigabytes per second. We specialize in configuring GPU-adjacent scratch storage systems that interface with InfiniBand or 400GbE host connections to prevent compute starvation.
For cloud providers offering object, block, or file services, hardware density is paramount. We build high-density multi-node storage platforms in 2U/4U footprints that maximize disk packing density while ensuring hot-swappable serviceability.
A trusted infrastructure partner supplying enterprise high-performance computing and hardware systems worldwide.
Established in 2016, NexaGPU has rapidly grown into a trusted provider of advanced computing systems and custom enterprise architecture. We operate a modern manufacturing facility supporting efficient production, assembly, and rigorous validation of server and storage platforms.
With 11 years of industry experience and 6 years of export history, NexaGPU has built robust international business capabilities. Our annual export revenue stands at USD 12 million, spanning major technology markets including North America, Europe, Southeast Asia, and the Middle East.
To guarantee long-term stability and reliability inmission-critical cloud environments, our dedicated team of 45 QC specialists executes comprehensive hardware stress testing, burn-in validation, and thermal performance testing. Working alongside a robust supply chain network of over 850 partners, we source and integrate top-tier components, offering massive customization flexibility. Our team of 120 R&D engineers continuously refines board design, power delivery, and cooling technologies to bring innovative, high-performance designs to market.
Ensuring your hardware investments meet local legal standards and operational safety guidelines across all borders.
Our manufacturing and integration lines comply with strict global frameworks, including CE, FCC, RoHS, and WEEE standards. We validate hardware-root-of-trust features and TPM 2.0 modules to comply with GDPR, HIPAA, and SOC 2 requirements at the system layer.
Equipped with 6 years of international logistics experience, we manage shipping, customs clearance, and duty management. We wrap all systems in custom, anti-static wooden crates to prevent damage during sea, air, or land freight.
We provide localized parts depots, advance hardware replacement, and remote IPMI technical support. Our engineers coordinate with local data center teams to minimize downtime when replacing drives, controllers, or power supplies.
Designing hardware platforms ready for next-generation data center standards.
As CPU core counts scale, memory and IO bus speeds must keep pace. We are actively integrating PCIe Gen 5.0 lanes across our storage controller backplanes. This doubles bandwidth and enables Compute Express Link (CXL), allowing memory pooling between host CPUs, hardware accelerators, and storage devices. This significantly reduces data duplication overhead.
High-density SSDs operating at PCIe Gen 5 or Gen 6 speeds produce considerable thermal output. To prevent thermal throttling in warm data center environments, we are designing direct-to-chip (D2C) liquid-cooling manifolds. These systems draw heat directly away from the ASIC controllers on individual NVMe drives, keeping them within optimal operating temperatures.
Firmware vulnerability represents a significant vector for security breaches. Our future hardware roadmap focuses on cryptographically verifying bootloaders, system BIOS, and controller firmware from the initial power-on state. Partnering with industry chip vendors, we integrate security layers directly into the server chassis backplanes.
We are optimizing our edge storage nodes to run native NVMe-over-TCP targets. This allows small-footprint regional micro-data centers to access centralized storage pools over standard Ethernet switches, eliminating the need for expensive, dedicated Fibre Channel network cards.
Common inquiries regarding custom OEM storage solutions, validation pipelines, and hardware distribution.
Complete your deployment with enterprise-grade RAID controllers, high-speed HBA cards, SSDs, and compute accelerators.
