W-Module



Features


By adopting a single CPU-GPU-Memory SoC for intelligent control, 

we integrated the AI computation and motor control modules, gaining a competitive edge in intelligent control technology.

SoC Processor

we develop integrated modules with AI-based motor control code that leverage both CPU and GPU capabilities. This approach enables us to capture market share and enhance our competitive edge.


On-device AI

we reduce the size of our products by lightweighting AI models for edge devices. This approach allows for mission execution independent of network conditions, leading to the production of more versatile and compact products.


01

The use of edge devices results in smaller and lighter units, which facilitate easier installation, maintenance, and replacement. Additionally, these devices can perform tasks regardless of environmental conditions.

02
All sensor data processing, AI computations, and motor control are integrated and managed from a single mainboard.



03

By utilizing an integrated GPU for efficient parallel processing without external devices, we can enhance the performance and development convenience of autonomous vehicles.


We surpass traditional motor control,
achieving stronger performance.

Data Bottlenecks and 

Communication Delays


1. Data transmission bottlenecks occur between CPU and GPU when sharing data across separate module memories.

2. Data loss issues arise, negatively impacting system performance and stability.

3. Communication delays critically affect real-time processing for autonomous mobility equipment.


Resolving Data Bottlenecks and 

Communication Delays


1. Eliminated bottlenecks by sharing a single physical memory within one integrated module.

2. Improved processing speed while resolving data loss issues.

3. Enhanced autonomous driving performance with fast, efficient data access, free from communication delays.


System Speed Degradation Issues


1. Processing speeds vary among the independently separated modules.

2. The entire system operates at the slower speed of the connection between fast and slow modules, leading to inefficiency.



Resolving System Speed Degradation


1. Implemented a single operating system suitable for the integrated module, addressing compatibility issues between modules.

2. Enabled detailed development for precise and effective intelligent motor control through artificial intelligence.


We provide top value through 

our superior technology.

01 

In-module AI Operation 

and Intelligent Control


All processing occurs within the intelligent control module, eliminating the need for external devices. This reduces costs and product size, improving usability.

02

Kernel 

Real-Time Patch


Real-time kernel patches have been implemented to enable precise and stable motor control.



03 

Customized I/O 

Port Design


We optimize Input/Output ports necessary for motor and mechanism control, supporting custom designs for enhanced performance.

04 

Exceptional Module Versatility


The intelligent control module's versatility allows integration into fields like robotics, mobility, and drones, driving market expansion.


Structure