Gasgoo Munich- On June 4, Zhuoyu Technology and Qualcomm unveiled a next-generation domain controller for cockpit-driving fusion, built on the Snapdragon Ride Platform Ultimate (Snapdragon 8797).
The companies have signed a memorandum of understanding (MoU) to drive the mass adoption of cockpit-driving fusion solutions across more vehicle models and future mobility scenarios. The partnership aims to offer automakers higher performance and greater scalability as they transition to central computing architectures.
Image Source: Zhuoyu
In the fields of driving assistance and cockpit-driving fusion, Zhuoyu Technology and Qualcomm have collaborated for years.
Prior to this, Zhuoyu's integrated cockpit-driving solution, built on the Snapdragon Ride Flex (Snapdragon 8775) System-on-Chip (SoC), entered mass production in the fourth quarter of 2025. The all-new Arcfox Alpha T5 is the first model to feature this technology.
The solution's core breakthrough lies in merging the cockpit and intelligent driving domains onto a single chip. Computing power can be flexibly configured via software, allowing the dual systems to interact directly. This shortens data transmission paths, delivering higher bandwidth and lower latency between the cockpit and driving systems to elevate the user experience.
Powered by the SA8775P integrated solution, the all-new Arcfox Alpha T5 supports full-scenario intelligent driving features. These include map-free, end-to-end navigation on urban roads and highways, automated parking, and cross-floor memory parking. The system also integrates 18 active safety functions.
Beyond the Alpha T5, the Arcfox Alpha S5 and Wendao V9 have also adopted this integrated cockpit-driving solution.
Additionally, Zhuoyu's solution built on the Snapdragon Ride Platform (Snapdragon 8650) is shipping in high volumes. It has been deployed in several models, including the FAW Hongqi Tian Gong 08 and Tian Gong 05.
Leveraging Zhuoyu's extreme computing efficiency, this solution can deploy the company's latest high-end algorithm architecture from the Transformer-based "ClixPilot" platform. Known as the "ClixPilot" explainable end-to-end algorithm, it runs on an equivalent of 200 TOPS of sparse computing power (100 TOPS dense). The architecture unifies perception, prediction, decision-making, and planning within a single model.
