ESWIN Computing’s deep neural network (DNN) technology provides CNN and LLM inference solutions, featuring AI framework compilers, AI accelerator products, and operator libraries. Focused on edge and cloud inference, it is capable of performing image recognition, NLP, and other tasks, widely applicable in such fields as video transcoding, facial recognition, and machine vision.

ESWIN Computing’s ISP and image quality enhancement technology boasts a full set of image capture and display processing units. This technology offers cutting-edge image capture features such as HDR, starlight-level noise reduction, distortion correction, color noise suppression, edge enhancement, color correction, and 3A functions (auto white balance, auto exposure, auto focus). For image display, it provides capabilities such as HDR (HDR10/HDR10+/HLG/VIVID/Dolby-Vision), spatial noise reduction (2DNR), temporal noise reduction (3DNR), super resolution, sharpening enhancement, contrast enhancement, color enhancement, and local dimming. These capabilities make it widely applicable in camera monitor systems, automotive displays, monitors, commercial displays, and other products.

Leveraging high-precision mixed signal design and adaptive algorithms, ESWIN Computing’s high-performance smart power management technology breaks new ground in efficiency, power consumption, and reliability of power systems. Self-developed power-efficient IPs enable fast response in nanoseconds and μA-level standby power consumption, providing high-efficiency and ultra-low-power solutions tailored for smart mobile devices. The dynamically adaptive design enables real-time monitoring of load requirements and intelligent adjustment of operating modes and loop responses in order to maximize efficiency and system stability. Certified to the rigorous AEC-Q100 standard for automobiles, the IPs support intelligent fault diagnosis and are well-suited for demanding applications in industry, automotive, and other fields. Through programmable digital interfaces, power parameters can be configured as needed and system-wide optimizations are achieved to deliver low power consumption, high-efficient and reliable power solutions.