Veltron
Veltron
Explore our leading rack servers and hardware components engineered to bridge edge computational pipelines with central data center hubs.
Veltron Computing Technology Co., Ltd. is a pioneering manufacturer and global supplier specializing in advanced computing infrastructure, encompassing high-performance GPU servers, AI training systems, and industrial-grade ARM edge solutions. Established in 2016 in Shenzhen, China, we operate a sophisticated manufacturing footprint exceeding 3,800 square meters. Our infrastructure features automated surface mount technology (SMT) lines, rigorous thermal calibration labs, and modular assembly systems designed to deliver mission-critical computing power.
Recognizing the massive migration of computing power toward the physical edge, Veltron has leveraged its comprehensive high-performance motherboard routing and thermal mitigation experience to engineer bespoke Industrial Raspberry Pi Computing and ARM Compute Module (CM4/CM5) platforms. By combining the vast software developer ecosystem of Raspberry Pi with industrial physical layer protections (such as opto-isolated GPIOs, hardware watchdog timers, wide-voltage power supplies, and high-conductivity thermal enclosures), we bridge the gap between simple prototyping boards and resilient, heavy-industry machinery control systems.
Deploying enterprise-ready ARM-based Raspberry Pi infrastructure to solve compute-intensive edge workloads.
Our custom carrier boards adapt standard Raspberry Pi Compute Modules into rugged DIN-rail controllers. These modules feature 9V-36V DC wide-voltage input blocks, surge protection, dual Ethernet ports, and RS485/CAN-Bus modules for direct PLC interface in heavy industrial settings.
Leverage modular NPU accelerators paired with ARM computing cores. Perfect for localized retail inventory tracking, smart camera data preprocessing, and decentralized Deep Learning inference without incurring expensive cloud transmission latency.
Our ARM micro-clusters support storage configurations for small-and-medium enterprises (SMEs). Utilizing custom-designed SATA / NVMe board breakouts, we supply high-efficiency, small-footprint NAS systems configured for secure off-grid backup systems.
With an annual export volume exceeding USD 18 million across North America, Europe, Southeast Asia, and South America, Veltron is deeply attuned to the requirements of international supply chains. The shifting paradigm of edge infrastructure requires highly resilient electronics design. Our specialized R&D center, comprised of 168 engineers, works continuously to optimize PCB signal integrity, high-speed thermal dissipation, and custom firmware integration.
By implementing a rigorous 56-person Quality Control (QC) matrix, every single batch of industrial ARM motherboards undergoes structural thermal cycling, 48-hour continuous burn-in, vibration tests, and precise I/O functional validation. We maintain strategic alignments with more than 1,200 verified silicon and component vendors, guaranteeing long-term production longevity (typically 5 to 7 years lifecycle support) for enterprise and governmental utility projects.
From board routing to metal enclosure prototyping—we manufacture application-specific edge hardware.
Standard Raspberry Pi boards are often inadequate for custom enclosures or high-integrity environments. Veltron bridges this technology gap by offering end-to-end OEM and ODM support:
Inside Veltron's production lines, testing facilities, and warehouse networks located in Shenzhen, China.
Embracing Next-Generation Silicon Architectures to Future-Proof Enterprise Investments.
Our upcoming product cycle focuses on carrier architectures fully compatible with the latest Compute Module generations. By designing unified breakout templates, enterprise clients can upgrade their processing cores from CM4 to advanced architectures without modifying existing wire looms, sensor networks, or mechanical mount points.
In response to the demand for local AI solutions, we are embedding dedicated neural processing units (NPU) ranging from 4 TOPS to 26 TOPS directly onto the mainboards of our ARM gateways. This enables real-time visual recognition, anomaly detection, and localized speech models to execute directly at the point of data capture.
Important answers regarding sourcing, industrial customization, and lifecycle logistics of our Raspberry Pi solutions.
Consumer-grade boards lack essential protections for industrial electrical environments. Our industrial carrier boards add input voltage regulation (typically 9V to 36V DC), isolated digital I/O lines to prevent damage from voltage spikes, physical watchdog timers that reset the CPU in case of software crashes, and robust M.2 expansion lanes that eliminate fragile SD cards in favor of enterprise-grade SSD storage.
For basic customizations, such as branding changes and customized enclosure cutouts, the typical MOQ is 100 units. For fully customized hardware design, including custom PCB routing and unique interface layouts, our project starting MOQ is 500 units, which covers engineering R&D cost, design validation, and specialized tooling setup.
We design customized high-conductivity aluminum enclosures that act as a direct passive heatsink for the CPU and PMIC. By utilizing high-performance thermal gap pads, we route heat directly to the exterior enclosure fin structure, keeping chip temperatures below throttling thresholds (80°C) even at ambient temperatures reaching up to 60°C.
Our hardware is fully compatible with official Raspberry Pi OS (formerly Raspbian). Additionally, we provide custom board support packages (BSPs) for Yocto Project, Buildroot, Debian Enterprise, and Ubuntu Server. The custom drivers for unique board components, such as cellular modules or CAN-bus interfaces, are integrated directly into our provided kernel trees.
Select high-density server configurations, dynamic RAM options, and advanced GPU acceleration units for modern networks.
