Against the backdrop of the rapid integration of artificial intelligence and the Internet of Things (AI & IoT), high-performance, highly integrated and secure hardware platforms have become the key support for the implementation of intelligent systems. This case showcases five core circuit board products, covering main control, computing and dedicated control functions, comprehensively serving cutting-edge application scenarios such as intelligent vision, industrial robots and autonomous mobile devices. All content is strictly compiled based on the provided information and no external data or speculation has been added.
Mainboard (Core Board) adopts the DeepEdge10 SoC chip, integrates a 10-core CPU, and provides up to 16 TOPS AI computing power. In combination with the on-board AI compilation toolchain and software development SDK, the prototype development and deployment of intelligent visual AI products can be quickly achieved. Typical applications include city-level dynamic facial recognition systems.
This board offers full-chain support from design to manufacturing, including BOM optimization and one-stop component procurement management services, significantly accelerating the product launch cycle. It is an ideal hardware foundation for AI and IoT applications.
In this case, there are two Computing boards with different names - IPU Computing Board and Computing Board, whose technical descriptions are exactly the same.
This computing board, as an IPU computing card, is equipped with two groups of 8-core CPUs, totaling 16 cores, and supports SM2/SM3/SM4 national encryption algorithms, building a complete TrustZone security environment and symmetric key engine (SKE) to ensure the high security of data.
Other key features include:
It is suitable for AI & IoT scenarios that have high requirements for security, computing power and video processing capabilities.
This case includes two types of main control boards, which are respectively targeted at industrial robots and intelligent logistics scenarios:
Designed specifically for industrial robotic arms, it supports synchronous control from 4 to 32 axes (depending on the model), featuring micron-level positioning accuracy and strong real-time performance. Compatible with multiple programming languages, it meets the requirements of complex motion control. It also provides full-chain R&D and manufacturing support, including BOM optimization and one-stop component management.
Designed for light-load indoor autonomous transportation scenarios, it integrates multi-line liDAR 3D SLAM technology and is suitable for intelligent forklifts, AGVs (Automated Guided Vehicles), and other equipment. The vehicle has a compact and flexible structure, supporting efficient and repeatable material handling tasks.
This board offers a full-process service from component selection, PCB/PCBA manufacturing, testing to RMA (Return, Exchange and Repair), and ensures product stability through DFM/DFA/DFX reliability engineering, creating a truly one-stop AI & IoT solution.
| Board Card Name | Type | Core Functions and Application Scenarios | Key Technical Parameters and Features |
|---|---|---|---|
| Mainboard (Core Board) | Core Board | Intelligent visual AI product development (such as city-level dynamic face recognition) | DeepEdge10 SoC; 10-core CPU; 16 TOPS computing power; AI compilation tool + SDK; Full-chain support |
| IPU Computing Board | Compute Board | High-Security AI Computing and Video Coding | 16 cores CPU (2×8); SM2/3/4 encryption; TrustZone + SKE; 1080P AI encoding; Nitrogen reflow soldering; Class III; 100% FCT |
| Computing Board | Compute Board | The functions are exactly the same as those of the IPU Computing Board | Same as above |
| Robot Arm Control Board | Main Control Board | Industrial robotic arm Multi-axis Synchronous control (4-32 axes) | Micron-level positioning; Multilingual compatibility; Full-chain R&D and manufacturing support |
| Intelligent Control Board | Main Control Board | 3D SLAM navigation for autonomous mobile robots (AGVs/intelligent forklifts) | Multi-line Lidar SLAM; Light-load indoor logistics; One-stop manufacturing + testing +RMA; DFM/DFA/DFX reliability support |
The above-mentioned board cards cover the core demands ranging from edge AI inference, secure computing to high-precision motion control and autonomous navigation, fully demonstrating the comprehensive pursuit of performance, security, reliability and engineering efficiency in the AI and IoT integration scenarios, providing a solid hardware foundation for the rapid development and large-scale deployment of intelligent terminal devices.
Founded in 1997 and headquartered in Shenzhen, KINGBROTHER specializes in electronic interconnection technologies and hardware innovation. We focus on electronic product R&D, AI hardware solutions, engineering services, integrated design and manufacturing, and supply chain capabilities to deliver comprehensive PCB manufacturing, IPD (Integrated Product Development), and EMS services.
We are committed to becoming a world-class AI hardware solutions and manufacturing service provider, offering one-stop solutions for AI robots, industrial control, medical devices, new energy, and automotive electronics, helping our customers accelerate innovation and bring products to market faster.
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