骁龙8 gen3上车了 消规级、车规级SOC有何区别？

Group 1 - The rise of smart cockpit technology has shifted the focus towards cockpit domain chips, which are now crucial for driving multiple high-resolution displays in vehicles [1][2] - The integration of cockpit systems has evolved from distributed control systems to a more centralized cockpit domain, enhancing the user experience with interconnected displays [2] - The Snapdragon 8155 chip can simultaneously drive multiple high-resolution screens, showcasing its capability compared to mobile devices that typically manage fewer displays [5] Group 2 - The increasing number of cameras in vehicles for advanced driver-assistance systems (ADAS) necessitates robust processing capabilities, with the Snapdragon 8155 supporting multiple video inputs [6] - Automotive-grade chips are designed to withstand harsher environments compared to consumer-grade chips, with stricter reliability and performance standards [10][11] - The AEC-Q series standards define various temperature ranges and reliability requirements for automotive components, ensuring stable operation under extreme conditions [14][16] Group 3 - The differences between automotive-grade and consumer-grade chips include enhanced anti-interference capabilities and rigorous reliability testing to prevent failures in critical systems [15][17] - The Snapdragon 8 Gen3 chip, built on a 4nm process, offers superior performance compared to the Snapdragon 8295, which is designed for mobile devices [20][22] - Automotive safety standards require chips to have fault detection and redundancy features, which are less stringent for consumer-grade chips [22]