VeriSilicon announced the CPP2000 Camera Post-Processing (CPP) IP, which expands its Image Signal Processing (ISP) solutions with advanced post-processing capabilities.
The CPP2000 is designed to improve image quality and visual perception for moving-camera systems in robotics, drones, and other mobile vision applications. It optimizes YUV images output from image signal processors and supports image and video processing at up to 8K resolution.
The IP offers multiple hardware configuration options to address requirements in power, performance, area (PPA), and latency for different applications. It integrates motion-compensated temporal filtering, advanced spatial noise reduction, chroma adjustment and dynamic contrast improvement, and edge enhancement.
These technologies enable optimization of image noise, sharpness, contrast, and detail preservation. The combined operations improve image stability and visual performance in mobile imaging scenarios while supplying high-quality image input for subsequent visual perception and machine vision applications.
“Delivering high image quality for robots and drones requires a holistic imaging strategy that extends beyond the image signal processor to include advanced camera post-processing. High-quality images are critical not only for visual fidelity but also for enabling reliable AI perception, navigation, and decision-making. As next-generation robotics increasingly relies on image sensing, the demand for high-quality images continues to grow, making comprehensive image enhancement increasingly important for achieving robust vision performance,” said Weijin Dai, Chief Strategy Officer, Executive Vice President and General Manager of IP Division at VeriSilicon. “CPP2000 addresses these challenges with advanced camera post-processing technologies that significantly enhance image quality in challenging moving-camera scenarios. When combined with our comprehensive vision processing portfolio, CPP2000 enables customers to develop more robust, intelligent, and power-efficient vision systems for next-generation robotics, drones, and other mobile vision applications.”





