Provides safe, secure, and high-performance products and solutions. Core products include AutoCore.COMM and AutoCore.OS, along with integrated CCU/ZCU hardware and software, and SDV solutions. These enable the rapid and cost-effective development of next-generation in-vehicle computing platforms.
AutoCore provides a complete end-to-end SDV solution including architecture design, vehicle application development services, and a foundational software platform to help OEMs realize their SDV strategy.
Traditional vehicles are like 'feature phones' with tightly coupled hardware and software, leading to long development cycles and difficult deployment of new functions.
Independent ECUs form isolated functional islands with poor data interoperability and disjointed services, resulting in inconsistent user experiences.
Most vehicles respond passively to commands and lack a deep understanding of user intentions and scenarios, failing to provide proactive and personalized intelligent services.
Traditional architectures cannot support the flexible deployment of SDV applications, limiting the potential of high-performance compute platforms.
Leveraging years of practical experience and deep technical expertise, AutoCore introduces an innovative SDV solution that effectively addresses industry pain points and delivers an exceptional software-defined vehicle experience.
Provides a secure, high-performance runtime environment for cross-domain integration and mixed-criticality applications, with a service-oriented runtime framework for high decoupling.
A layered centralized architecture that supports heterogeneous hardware, optimizes cross-domain interaction and wiring design, and improves hardware resource efficiency.
Builds an AI core, SOA framework, and cross-domain collaboration system to support full-scenario intelligent services and ecosystem openness.
Covers full vehicle/local OTA, predictive maintenance, and remote diagnostics, ensuring continuous operation and health of the product lifecycle.
Meets intelligent vehicle safety and security requirements through multi-level isolation, full-link encryption, and compliance verification.
Integrates visual development, AI-assisted tools, and asset management to improve the entire SDV software development process.
Multimodal fusion perception enabling interaction beyond language
Intent is the interface, conversation is the super entry point – toward Auto-UI
Atomized services with independent deployment and single responsibility
Encapsulated applications deployed in containers for consistent runtime across environments
On-demand service composition and dynamic orchestration for instant functionality
Standardized vehicle-side service interfaces
Enables precise understanding and response by AI
Facilitates ecosystem integration, from function calls to intent collaboration
Design driven by natural language to instantly generate interactive interfaces
Integrates design and development to dramatically shorten product cycles
Accelerates the journey from vague ideas to code and improves team collaboration
Integrates functional safety, cybersecurity, and AI safety
Builds a collaborative and mutually supportive system among the three
Ensures the intelligent vehicle's behavior is reliable, controllable, and trustworthy
AutoCore SDV combines cutting-edge AI to deliver an unprecedented user experience.
AI core detects driver fatigue via multimodal sensing and proactively activates alert mode by coordinating air conditioning, music, and other services.
When navigating to work, the system understands your commuting intent and intelligently recommends playlists based on route and time.
When battery is low, the system completes the entire charging process—searching, navigating, reserving, and paying for charging stations—without switching apps.
Enables PMs or users to design new feature combinations and UI interactions through natural language conversation, significantly shortening development cycles.
Integrates external environment perception from intelligent driving with in-cabin user status sensing to provide more effective alerts when danger is detected and the driver is distracted.
Leverages the foundational software platform to enable multimodal fusion, dynamic perception, and independent updates for an enhanced interaction experience.
Ensures efficient and secure iteration through differential partition upgrades, zero firmware upgrade capability, and safe and secure middleware.
Enables millisecond-level decision-making by linking autonomous driving with cockpit systems via low-latency platforms and heterogeneous access.
Shortens development cycles and enables cross-platform reuse for multiple vehicle models through hardware decoupling and unified interfaces.
Utilizes isolated scheduling mechanisms to achieve remote diagnostics, auto-repair, and self-healing of faults, improving efficiency and reducing costs.
Enables intelligent vehicle control through semantic invocation, customized scenarios, and a service-oriented framework to flexibly coordinate vehicle hardware.
