Aivora
Aivora
Deploy high-performance nodes optimized for complex inference workloads, LLMs, and high-speed network topologies.
As networks undergo generational transformation driven by Artificial Intelligence (AI), Large Language Models (LLMs), and hyper-scale virtualization, legacy networking architectures are hitting bottleneck limitations. Aivora Technology Co., Ltd. stands at the forefront of this shift. We design, customize, and manufacture enterprise-grade computing nodes, customized switches, high-speed storage configurations, and advanced network interconnect arrays.
Established in 2018 in Shenzhen, China's Silicon Valley, Aivora integrates cutting-edge engineering processes and local manufacturing resources. Our production model ensures that specialized equipment is optimized from the silicon and PCB layout levels up to complex multi-socket hardware racks. We enable global system integrators and enterprises to build customized computing facilities with unmatched execution speed and pricing advantages.
Quality is the cornerstone of complex server architectures. At Aivora, every system undergoes rigorous testing protocols to verify its stability under peak loads.
Empowering global customers with robust engineering resources and agile production cycles.
From 1U compute-density optimized layouts to 4U/8U GPU server shells. Our engineers optimize internal layouts to balance mechanical strength with optimal airflow dynamics.
Our testing lab is equipped with high-bandwidth protocol analyzers to validate PCIe 4.0/5.0 signaling, Fibre Channel routing, and high-frequency backplane connectivity.
By collaborating with over 1,250 certified partners, we mitigate component shortages. We maintain a buffer stock of key semiconductor ICs and raw materials.
Optimizing networking equipment and customized computing hardware for diverse industrial applications.
Modern data centers demand highly reliable server platforms capable of managing multi-threaded tasks and deep learning nodes. As AI tools like Deepseek require complex computational algorithms and extreme memory bandwidth, our customized configurations—incorporating specialized RAID adapters, SSD storage, and Intel Xeon/AMD EPYC scalable processors—provide the reliability necessary to run modern AI workloads continuously without performance degradation.
Aivora's design team optimizes signal paths and storage backplanes, ensuring that low latency is maintained across the local area network. This layout reduces packet loss at the rack interface, maximizing server processing cycles and minimizing processing latency.
Industrial applications require equipment that operates reliably in extreme temperatures, vibration, and dust-prone conditions. Our custom edge nodes and short-depth chassis variants are designed specifically to operate outside standard server rooms.
These units function as localized telemetry hubs, processing data from industrial sensors and IoT endpoints. This setup allows real-time local processing, minimizing dependence on remote cloud connections and lowering long-distance data transmission costs.
Ensuring seamless deployment, global compatibility, and long-term regulatory compliance across regional boundaries.
All Aivora network platforms undergo certification testing to meet international safety and electromagnetic compatibility standards. This ensures compliant operation within diverse enterprise network topologies.
We configure custom BIOS and IPMI parameters designed for regional standards. Our custom IPMI implementation allows remote administrators to manage hardware states securely across local and wide-area networks.
Aivora provides long-term hardware lifecycle support. We commit to supplying replacement components and boards for a minimum of five years post-release, protecting your hardware investments from early obsolescence.
Anticipating bandwidth demand shifts and preparing computational infrastructures for next-generation network standards.
Implementing PCIe 5.0 and high-speed Fibre Channel interfaces across our entire server line. This provides the memory bandwidth necessary to support high-throughput GPU accelerators without data bottlenecking.
Designing custom water blocks and liquid-to-air cooling options. These solutions manage high-density processors (up to 350W+ TDP per socket) without relying on high-noise high-RPM fans.
Testing Compute Express Link (CXL) hardware. This allows multiple compute nodes to access shared memory resources dynamically, reducing costs and power requirements in large clusters.
Expand capacity, manage RAID configurations, and maintain high packet throughput with optimized hardware.
A look inside our 386 square meter testing and system integration facility in Shenzhen.
Technical answers regarding customization capabilities, supply chain logistics, and hardware architecture.