Latest news with #imageprocessing
National Post
12-06-2025
- Business
- National Post
VeriSilicon's AI-ISP Custom Chip Solution Enables Mass Production of Customer's Smartphones
Article content Providing architecture design, software-hardware co-development, and mass production support, and enhancing AI-powered imaging Article content Article content SHANGHAI — VeriSilicon ( recently announced that its AI-ISP custom chip solution has been successfully adopted in a customer's mass-produced smartphones, reaffirming the company's comprehensive one-stop custom silicon service capabilities in AI vision processing. Article content VeriSilicon's AI-ISP custom chip solution can integrate proprietary or third-party Neural Network Processing Unit (NPU) IP and Image Signal Processing (ISP) IP. By combining traditional image processing techniques with AI algorithms, it significantly enhances image and video clarity, dynamic range, and environmental adaptability. The chip solution offers flexible configurations with RISC-V or Arm-based processors, supports MIPI image input/output interfaces, provides LPDDR5/4X memory integration capability, and is compatible with common peripheral interfaces such as UART, I2C, and SDIO. This makes the solution highly adaptable for deployment across various applications including smartphones, surveillance systems, and automotive electronics. Article content For this collaboration, VeriSilicon designed a low-power AI-ISP system-on-chip (SoC) based on the RISC-V architecture, tailored to the customer's specific requirements. It also included a FreeRTOS real-time Software Development Kit (SDK). The customized SoC was fully optimized for seamless interoperability with the customer's main processor platform and has since been successfully deployed in multiple smart devices, achieving large-scale production. This success highlights VeriSilicon's robust capabilities in heterogeneous computing, software-hardware co-optimization, and system-level integration and verification. Article content 'AI-powered imaging has become a key differentiator in the competitive smartphone market, driving increasing demand for high-performance and low-power image processing solutions,' said Wiseway Wang, Executive Vice President and General Manager of the Custom Silicon Platform Division at VeriSilicon. 'With full-spectrum capabilities ranging from IP licensing and chip architecture design to system-level software and hardware development, tape-out, packaging and testing, as well as mass production, VeriSilicon offers end-to-end custom silicon services leveraging its extensive design service experience and proven mass production capabilities. The successful mass production of this customer's chip further validates our strength in high-end silicon design services. Moving forward, we will continue to innovate and improve our offerings, empowering customers to accelerate the launch of differentiated products with efficient, high-quality custom chip solutions.' Article content Article content
South China Morning Post
22-05-2025
- Science
- South China Morning Post
Award-winning Chinese radar expert Li Chunsheng dies aged 62 at conference
The leading Chinese radar expert Li Chunsheng has died at the age of 62. Li, a professor at the school of electronic information engineering of Beihang University in Beijing, became ill last week at a conference hosted by the China Radar Industry Association in Hefei, the capital of the southeastern province of Anhui. An obituary published by his university on Monday said he had 'devoted himself to developing China's aerospace industry'. Li specialised in synthetic aperture radar, with a particular focus on image processing and methods to enhance the quality of the images produced. His university said he had made 'systematic and significant contributions' to the development of the technology and that as a teacher he had helped cultivate top talent in the aerospace remote sensing sector. Li also held positions on a number of national military and aerospace organisations, including the Central Military Commission's science and technology committee. He published more than 80 academic papers and four monographs, and served as team leader and chief scientist on many major national research projects, including the National High-Tech Programme and National Basic Research Programme.
