Velorix
Velorix
Discover our high-performance hardware array designed to interface seamlessly with modern high-speed enterprise switches.
In the modern digital economy, enterprise environments are undergoing an unprecedented shift toward intensive artificial intelligence workloads, deep learning architectures, and high-frequency cloud transactions. This shift has exposed a critical design flaw in legacy networks: the interconnect bottleneck. Standard Gigabit or low-bandwidth 10G networks cannot support the parallel multi-node communication required by massive AI compute clusters.
As a leading innovator, we deliver advanced High-Speed Network Switch Solutions engineered to resolve these global interconnect limitations. By implementing non-blocking fabric architectures, we enable seamless data paths that sustain wire-speed performance. This minimizes network overhead, allowing systems such as DeepSeek GPU training servers and cloud-scale storage networks to function at their design limits without latency-induced queuing delays.
Our solutions scale from high-density 100G configurations up to ultra-performance 400G/800G optical interconnect switches, providing standard rack-mount designs compatible with diverse computing components.
With structured chassis layouts, hot-swappable cooling fans, and high-efficiency redundant PSUs, our hardware reduces operational overhead and guarantees continuous network uptime.
A comparison of modern high-speed switch architectures across standard metrics to assist in architecture selection.
| Switch Architecture | Port Configuration | Throughput Rate | Latency Spec | Primary Industrial Use-case |
|---|---|---|---|---|
| Enterprise Aggregation Series | 48x 10G/25G SFP28 + 8x 100G QSFP28 | 2.0 Tbps L2/L3 Forwarding | < 500 ns | High-throughput Web servers, Virtualization clusters, NAS Storage |
| Spine-Leaf AI Fabric (RoCE v2) | 32x 100G QSFP28 or 64x 100G links | 6.4 Tbps Bidirectional | < 350 ns | Large scale AI distributed training, deep learning dataset storage |
| Next-Gen Datacenter Core | 32x 400G QSFP-DD / OSFP ports | 12.8 Tbps wire-speed | < 280 ns | Multi-tenant Cloud Centers, High-Frequency Trading, AI clusters |
| Ultra-Performance Core | 64x 800G OSFP or customized array | 51.2 Tbps Non-blocking | < 220 ns | National HPC centers, LLM foundational model training pools |
How our high-speed network topologies integrate into critical global industries to prevent bottleneck latency.
Modern storage frameworks rely on high IOPS and minimal protocol overhead. Introducing NVMe over Fabrics (NVMe-oF) using our low-latency switches allows network storage nodes to achieve near-local NVMe drive write speeds, reducing processing times for dataset distribution.
Industrial IoT networks demand deterministic communication. Our layer 3 switches support TSN (Time-Sensitive Networking) mechanisms, securing precise machine execution and data logging in manufacturing centers.
For hyperscaler datacenters, high-speed leaf switches aggregate workloads across hundreds of servers. We provide reliable paths for East-West traffic, preventing resource contention during user demand peaks.
Established in 2016, Velorix is a specialized manufacturer and exporter of advanced high-performance computing hardware, system integration platforms, and customized AI infrastructure solutions.
Leveraging our 10 years of domestic industry experience and 6 years of international export operations, we provide reliable, scalable platforms for AI training, deep learning, virtualization, and enterprise datacenter applications.
Quality defines our operational approach. We run a comprehensive quality management system supported by a team of 42 quality control professionals. Every system undergoes extensive inspections, including component validation, burn-in verification, thermal performance testing, power stability analysis, network validation, and full system benchmarks.
To support innovation, we have established strategic relationships with over 850 supply chain and technology partners. Our internal R&D division has 135 engineers focused on hardware design, server architecture optimization, thermal management, and custom physical designs.
Our engineering targets for modern datacenters and multi-node clusters over the next three fiscal years.
Integrating optical engines directly onto the switch silicon package to reduce signal attenuation, lowering energy footprints by up to 30% compared to traditional configurations.
Upgrading computing networks to handle Gen 6 lanes, matching backplane transfer rates to support modern compute fabrics without interface throttling.
Designing cooling blocks within switch chassis to connect directly to standard datacenter water loops, optimizing thermal management for high-density environments.
Securing reliable product deployment across international markets through engineering compliance and regional partnerships.
Our networking solutions undergo certifications including CE, FCC, RoHS, and UL, verifying safety, electromagnetic compliance, and eco-friendly manufacturing.
We provide structural optimization, custom port configurations, specific firmware settings, and tailored branding to meet unique deployment requirements.
By partnering with over 850 material vendors, we secure consistent component supply lines and minimize shipping delays to international hubs.
Common inquiries regarding our hardware engineering, custom configuration capabilities, and supply chain logistics.
Explore our complementary hardware line, including GPU workstations, processors, and high-speed SSDs designed for modern computational clusters.
