OEM及Tier1智慧座舱平台（硬体/软体）及供应链建置策略（2025）

智慧座舱平台主要指实现智慧座舱各子系统及功能的软硬体架构。它由硬体和软体两部分组成。硬体部分主要为各类异质晶片组成的底层硬体平台，软体部分主要为实现座舱系统功能的底层作业系统、中介软体及应用层组成的软体平台产品。

座舱平台创新方向：高通8397平台、AI Agent等新型软硬体产品的部署步伐正在加快

随着智慧座舱逐渐演变为集多模态互动、即时数据处理和沈浸式体验于一体的“第三生活空间”，对座舱硬体平台的要求也日益提升。整体而言，基于成本控制，创新升级主要在以下几个方面进行：

算力需求高：受终端AI模型、3D人机互动、车载游戏、沉浸式互动、智慧座舱与智慧驾驶融合等需求驱动，座舱需要高算力来支撑复杂的演算法。目前量产的主流高阶座舱SoC，由于GPU和NPU的不断提升，CPU算力已超过200KDMIPS。

频宽需求高：终端AI模型、多感测器、多萤幕显示、多模态互动等周边功能对座舱内多源资料传输速度、流畅的多萤幕互动、即时多媒体播放等要求更高，需要高频宽来支撑智慧座舱功能的实现。随着参数规模的增加，设备上大规模多模态模型对记忆体容量和资料读取速度（频宽）的要求将比以往任何时候都更高。 DRAM频宽已从数十GB/s发展到100GB/s以上，规格也升级到LPDDR5/5x。

高速传输需求：座舱高速通讯的要求是确保高速、低延迟、可靠、稳定、安全的资料传输，并支援比以往更多的座舱功能和应用。

例如，在智慧座舱的快速发展中，博泰智联+已布局并提供丰富的创新产品，以满足更高性能智慧座舱的需求，例如基于AI的模型在车辆中的应用、沉浸式3D体验等。例如，搭载高通骁龙Cockpit Elite（QAM8397P）的新一代智慧座舱解决方案，以及博泰智联科技AI Agent端云整合平台。

博泰新一代座舱平台：基于高通骁龙Cockpit Elite（QAM8397P）

2025年4月，博泰智联科技发表搭载高通骁龙Cockpit Elite（QAM8397P）的新一代智慧座舱解决方案，协助全球OEM厂商提供面向中央运算架构的顶级智慧座舱产品，实现高效能、高扩充性和高安全的座舱解决方案。高通第五代座舱SoC产品支援高达16个4K显示屏，支援即时光线追踪和沈浸式3D体验，拥有660K DMIPS的CPU运算能力和360TOPS的AI算力。其内建的Hexagon NPU不仅可以处理大规模语言模型，提供本地使用手册、问答等服务，还能学习并适应用户偏好，甚至自动采取某些操作，从而提升设备端AI模型的运行性能。

本报告对中国汽车产业进行了研究分析，并提供了国内外智慧座舱平台的发展趋势、解决方案、供应链建设策略等资讯。

目录

第一章：智慧座舱平台定义及软硬体平台发展趋势

• 汽车智慧座舱平台定义及座舱架构
• 智慧座舱平台市场规模及渗透率预测：按类型
• 主要主机厂智慧座舱硬体平台演进趋势
• 主机厂智慧座舱软体平台演进趋势1
• 主机厂智慧座舱软体平台演进趋势2
• 主机厂智慧座舱软体平台演进趋势3
• 主机厂智慧座舱软体平台演进趋势4

第二章：智慧座舱平台创新方案及竞争优势供应商

• 中国智慧座舱平台厂商创新产品布局与竞争优势
• 国外智慧座舱平台厂商竞争优势

第3章 与OEM的智慧型驾驶座硬体设备/软体的设计策略演进趋势

• Li Auto
• XPeng
• Leapmotor
• NIO
• Xiaomi Auto
• Great Wall Motor
• GAC Group
• SAIC Group
• BYD
• Geely
• Changan
• FAW Hongqi
• BAIC
• Tesla
• Mercedes-Benz
• BMW
• Volkswagen
• Ford
• Stellantis Group

第4章 全球智慧型驾驶座平台系统厂商

• Harman
• Visteon
• FORVIA
• Aptiv
• Bosch
• Continental
• Denso
• Marelli

第5章 中国的智慧型驾驶座系统厂商

• PATEO CONNECT+
• Desay SV
• ADAYO
• Joyson Electronics
• Huawei
• ThunderSoft
• Hangsheng Electronics
• BICV
• ECARX
• AutoLink
• NavInfo
• ArcherMind
• KOTEI Informatics

Research on intelligent cockpit platforms: in the first year of mass production of L3 AI cockpits, the supply chain accelerates deployment of new products

An intelligent cockpit platform primarily refers to the software and hardware architecture that implements various subsystems and functions of an intelligent cockpit. It consists of two parts: hardware and software. The hardware part is mainly the underlying hardware platform composed of a variety of heterogeneous chips; the software part is mainly the software platform product that is composed of underlying operating system, middleware and application layer and enables cockpit system functions.

In this report, referencing the cockpit classification standards of China SAE, we further categorize vehicle intelligent cockpit platforms into:

L0, Functional Cockpits, providing basic IVI services;

L1, Perceptive Cockpits, equipped with connection and OTA capabilities, and basic in-cabin perception capabilities (e.g., voice);

L2, Partially Cognitive Intelligent Cockpits, that boasts enhanced in-cabin and out-cabin cognitive capabilities. Some supports DMS/OMS, V2X, biometrics, etc., and is capable of active interaction with the driver; most support on-device foundation models with 100 million to 2 billion parameters;

L3, Highly Cognitive AI Cockpits, featuring robust in-cabin AI performance, all-scenario active perception, and the ability to make intelligent decisions and autonomously execute tasks in certain scenarios, and supporting on-device foundation models with 5 to 15 billion parameters;

L4, Fully Cognitive AI Cockpits, supporting driverless operation, active execution, remote cloud control, emotional interaction, and on-device foundation models with 30+ billion parameters.

Specifically, in the research, intelligent cockpit platform products by framework can be divided into 7 major categories and over 40 subcategories to explore intelligent cockpit product innovation directions, intelligent cockpit architecture evolution, and supply chain construction of OEMs and Tier1s.

Cockpit platform innovation directions: the pace of deploying new hardware and software products like Qualcomm 8397 Platform and AI Agent quickens

As intelligent cockpits evolve into a "third living space" that integrates multimodal interaction, real-time data processing, and immersive experiences, higher requirements are placed on cockpit hardware platforms. In general, on the basis of cost control, innovation and upgrade can be carried out mainly in the following aspects:

High Computing Power Requirement: Driven by requirements for on-device AI foundation models, 3D HMI, in-vehicle gaming, immersive interaction, and integration of intelligent cockpit and intelligent driving, cockpits require high computing power to support complex algorithms. Mainstream high-end cockpit SoCs in mass production now offer CPU compute of 200+ KDMIPS, with continuous improvements in GPU and NPU.

High Bandwidth Requirement: Peripheral functions like on-device AI foundation models, multiple sensors, multi-screen display, and multimodal interaction enable cockpits to pose higher requirements for cockpit multi-source data transmission speed, smooth multi-screen interaction, and real-time multimedia playback, so high bandwidth is required to support the implementation of intelligent cockpit functions. With increasing parameter sizes, on-device large multimodal models demand ever higher memory capacity and data reading speeds (bandwidth). DRAM bandwidth evolves from tens of GB/s to 100+ GB/s, and the specification is being upgraded to LPDDR5/5x.

High-Speed Transmission Requirement: The requirements of cockpits for high-speed communication lie in ensuring fast, low-latency, reliable, stable, and secure data transmission to support ever more cockpit functions and applications.

For instance, in the rapid development of intelligent cockpits, PATEO CONNECT+ works to make its layout and offers a diverse range of innovative products to meet the needs for higher-performance intelligent cockpits, such as introduction of AI foundation models in vehicles and immersive 3D experience. Examples include the new-generation intelligent cockpit solution powered by the Qualcomm Snapdragon Cockpit Elite (QAM8397P), and PATEO CONNECT+'s AI Agent device-cloud integrated platform.

PATEO's Next-Gen Cockpit Platform: Based on the Qualcomm Snapdragon Cockpit Elite (QAM8397P)

In April 2025, PATEO CONNECT+ announced its next-gen intelligent cockpit solution powered by the Qualcomm Snapdragon Cockpit Elite (QAM8397P) will help global OEMs offer top-tier intelligent cockpit products for central computing architectures and deliver high-performance, highly scalable, and high-security cockpit solutions. With CPU compute of 660K DMIPS and AI compute of 360 TOPS, the fifth-gen Qualcomm cockpit SoC product can support up to 16 4K displays, real-time ray tracing, and immersive 3D experience. Its built-in Hexagon NPU can not only process large language models to provide services like local user manual and Q&A, but learn and adapt to user preferences and even automatically execute certain actions to enhance performance of on-device AI foundation models in operation.

PATEO's AI Solution: PATEO Device-Cloud Integrated AI Agent Platform

PATEO CONNECT+ is developing a device-cloud integrated AI Agent platform for intelligent cockpits, based on powerful foundation models and unique requirements of Internet of Vehicles. Through tight integration of cloud and vehicle, the platform enables more advanced features, for example, precise vehicle manual recognition and intelligent Q&A, role-playing, and casual conversation, brining a new human-vehicle interaction experience and driving intelligent cockpit evolution.

Cockpit platform innovation directions: on-device AI foundation model parameters grow from 1 billion to 7 billion, and even 10 billion

AI foundation models are transforming the automotive industry. They are enabling a new generation of immersive cockpit experience in terms of human-computer interaction, driving and riding experience, and in-vehicle entertainment services, transforming cockpits from a tool into an "emotional and soulful partner".

In intelligent cockpits, AI foundation models typically rely on a device-cloud cooperative architecture. The cloud handles large-scale computation and data storage, while the device ensures low-latency real-time responses and user privacy protection. Considering that cloud foundation models are subject to privacy security, latency, stability, cost and so forth, in the future, partial computation and storage in using AI foundation models will need to be completed by vehicle computing resources, so it is necessary to add on-device AI foundations. In recent two years, suppliers have launched new hardware and software products to facilitate AI cockpit solution evolution.

On-device AI hardware requirement: single-chip solutions like MediaTek's 3nm MT8678 & dual-Qualcomm Snapdragon 8295 hardware platform products

Currently, vehicle cockpit AI foundation models only have 1 billion parameters or even fewer, with slightly insufficient performance. Future intelligent cockpits will need to support AI large language models with over 7 billion parameters, thus requiring a higher-compute, higher-performance base for intelligent cockpit hardware products.

For example, BICV's MARS 06 Intelligent Cockpit, based on the MT8678 platform with NPU compute of 46+ TOPS, supports on-device AI foundation models (e.g., LLMs and Stable Diffusion) with 13 billion parameters, and allows for integration of IVI, cluster, AVM, DMS, IMS, AI foundation models, and APA.

In addition to improving single-chip performance, some OEMs even adopt dual cockpit SoCs to ensure low-latency, efficient, and stable operation of cockpits. For example, the cockpit of Lynk & Co 900 launched in 2025 uses dual Qualcomm Snapdragon 8295 chips to build a high-compute base, enabling such cockpit features as eight-screen interconnection (including a 30-inch 6K integrated main screen, rear 30-inch 6K floating entertainment screens, and a 95-inch AR-HUD), 3D visual desktop, cross-screen gestures, immersive audio effects, and emotional interaction via the "AI Assistant".

However, hardware upgrades are often accompanied by surging costs. How to find a balance between performance improvement and cost control has become a core issue for OEMs and suppliers.

On-device AI software requirement: cockpits are connected to AI foundation models and integrate capabilities of foundation models like DeepSeek

In recent two years, OEMs have deployed cockpit AI foundation models on their vehicles, significantly enhancing interaction naturalness, adaptability to scenarios, and personalization of their cockpits. For example, Geely's full-stack self-developed AI foundation model, the Xingrui AI Foundation Model, is introduced into vehicles, covering three foundation models: large language model, large multimodal model, and digital twin model.

In February 2025, Geely's Xingrui AI Foundation Model was deeply coupled with DeepSeek-R1. Basic intent is processed by Xingrui AI Foundation Model System 1, while complex intent is processed by the System 2 consisting of Xingrui VLM perception model and DeepSeek reasoning model. After the two systems make a decision, commands are sent to the execution system to control functions including intelligent driving, intelligent cockpit, generative interaction, and UI Agent interaction. The decision-making process also refers to signal libraries, function libraries, and external information sources.

Cockpit platform innovation directions: cockpit applications like acoustics and HMI pursue immersive and high-quality experiences

As cockpit intelligence advances, the application layer of intelligent cockpits is gradually progressing toward immersive and high-quality experiences. In the case of cockpit acoustic systems, in recent years OEMs have shifted from replying on suppliers to the self-development + supplier model, and transformed from traditional single sound effect output to multi-dimensional sensory interaction. Based on simultaneous upgrade of software and hardware, acoustic systems develop in the direction of immersion, emotionality, scenario-based interaction and personalization.

NIO ET9, launched in 2025, is equipped with the NIO Lyre 8.2.4.8 Sound System, an immersive sound system featuring 35 speakers, and power of 2,800W at 10% distortion. It introduces headrest speakers, a rear center surround unit, and a front and rear dual subwoofer combination, enabling a 360° sound field enveloping every seat and delivering a cinematic-level immersive experience.

At the Auto Shanghai 2025, Zeekr showcased Zeekr 9X, its new flagship SUV equipped with the latest Zeekr Sound MAX audio system. This 32-speaker audio system with maximum power of over 4,000W uses new materials and technologies such as graphene diaphragms and NANO-CELL, and supports 7.1.4 panoramic immersive sound effects.

Besides acoustic hardware upgrade, the Zeekr Sound system also features a "Tuning Geek" function, which enables independent adjustment of gain, delay, and equalization across all channels, and full vehicle Reverb effect adjustment, allowing users to create personalized audio effect. Additionally, the Tuning Geek function supports sharing. Users can share their custom sound effects with others or add others' sound effects via shareable codes.

As OEMs pay ever more attention to the functionality and experience of intelligent cockpit applications like in-car acoustics, corresponding products require innovation and upgrade. In response, suppliers are working to develop new products to meet market demands swiftly.

PATEO CONNECT+ has introduced an all-scenario intelligent interaction system for vehicles. It utilizes body panels to produce sound and integrates body panel vibration sensing to enable innovative exterior interactions. By lightly tapping the body panels, users can activate voice recognition, open the trunk or doors, and project sound externally on the corresponding side. This system combines sound vibrators, vibration sensors, and control units, and offers multi-modal interaction capabilities, such as omnidirectional sound emission and perception outside the vehicle. It supports over 50 new application scenarios, and covers leisure and entertainment, exterior interaction, safe vehicle control and more, including collision detection, external charging control, local rescue, interior and exterior intercoms, and external stereo music playback.

Table of Contents

1 Definition of Intelligent Cockpit Platform and Development Trends of Hardware & Software Platforms

• 1.1 Definition of Automotive Intelligent Cockpit Platform and Cockpit Architecture
• Definition of Automotive Intelligent Cockpit Platform
• Main Research Categories of Automotive Intelligent Cockpit Platform Report
• Current Cockpit Platform Hardware Architectures Are Led by the SoC + External MCU Architecture
• Evolution of Intelligent Cockpit Software Platform Architecture
• Classification of Mainstream Cockpit Platform Solutions
• Market Share of Mainstream Cockpit Platform Solutions Already in Mass Production:
• Cockpit Platform Architecture (1): Hardware Architecture of Qualcomm SA8295 Intelligent Cockpit Platform
• Cockpit Platform Architecture (1): Software Architecture of Qualcomm SA8295 Intelligent Cockpit Platform
• Cockpit Platform Architecture (2): Block Diagram of Qualcomm 8155 Based Cockpit System Solution
• Cockpit Platform Architecture (3): Visteon's Intelligent Cockpit Platform Architecture Based on Dual Cockpit SoCs and Dual Systems
• Cockpit Platform Architecture (3): Dual Cockpit SoC Configuration
• Cockpit Platform Architecture (4): Software Architecture of AMD X86 Based Cockpit Platform
• Cockpit Platform Architecture (5): MT2715 Based Cockpit Solution
• Cockpit Platform Architecture (6): Block Diagram of Renesas R-car H3 Based Four-Screen Intelligent Cockpit System
• Cockpit Platform Architecture (7): Block Diagram of NXP iMX8QM Based Intelligent Cockpit System
• Cockpit Platform Architecture (8): Block Diagram of NXP iMX8QM Based Intelligent Cockpit System
• 1.2 Intelligent Cockpit Platform (by Type) Market Size and Penetration Forecast
• Installations and Penetration Rate of Intelligent Cockpit Platforms in China, 2024-2030E
• China's Cockpit Platform (by Type) Market Size, 2024-2030E
• Penetration Rate of Intelligent Cockpit Platforms (by Type) in China, 2024-2030E
• Market Share of Intelligent Passenger Car Intelligent Cockpit Platform Suppliers in China, 2024
• Installations of Intelligent Cockpit Platforms (by Level) in China, 2023-2024
• Installations of Intelligent Cockpit Platforms (by Level) in China, 2024-2030E
• Levels of Intelligent Cockpits
• 1.3 Evolution Trends of Intelligent Cockpit Hardware Platforms of Major OEMs:
• 1.4 Evolution Trend 1 of Intelligent Cockpit Software Platforms of OEMs:
• 1.5 Evolution Trend 2 of Intelligent Cockpit Software Platforms of OEMs:
• 1.6 Evolution Trend 3 of Intelligent Cockpit Software Platforms of OEMs:
• 1.7 Evolution Trend 4 of Intelligent Cockpit Software Platforms of OEMs:

2 Innovative Solutions and Competitive Edges of Intelligent Cockpit Platform Suppliers

• 2.1 Innovative Product Layout and Competitive Edges of Chinese Intelligent Cockpit Platform Suppliers
• Cockpit Hardware Platform Products and Innovative Solutions of Major Chinese Suppliers
• Cockpit Software Products and Innovative Solutions of Major Chinese Suppliers: Software OS Products
• Cockpit Software Products and Innovative Solutions of Major Chinese Suppliers: AI Products
• Cockpit Software Products and Innovative Solutions of Major Chinese Suppliers: Acoustic Products
• Cockpit Software Products and Innovative Solutions of Major Chinese Suppliers: Others
• Competitive Edges of Major Chinese Cockpit Platform Suppliers (1)
• Competitive Edges of Major Chinese Cockpit Platform Suppliers (2)
• 2.2 Competitive Edges of Foreign Intelligent Cockpit Platform Suppliers
• Cockpit Hardware Platform Products and Innovative Solutions Major Foreign Suppliers
• Cockpit Software Products and Innovative Solutions of Major Foreign Suppliers: Software OS Products
• Cockpit Software Products and Innovative Solutions of Major Foreign Suppliers: AI Products
• Cockpit Software Products and Innovative Solutions of Major Foreign Suppliers: Others
• Competitive Edges of Major Foreign Cockpit Platform Suppliers (1)
• Competitive Edges of Major Foreign Cockpit Platform Suppliers (2)

3 OEMs' Intelligent Cockpit Hardware and Software Layout Strategies and Evolution Trends

• 3.1 Li Auto
• Intelligent Cockpit Hardware Platform Evolution Path: 2022-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• Self-developed Vehicle OS: Halo OS
• Mind GPT Foundation Model
• Voice System Construction Scheme
• Audio System Solution
• AR HUD Solution
• Gesture Recognition Solution
• 3.2 XPeng
• Intelligent Cockpit Hardware Platform Evolution Path: 2022-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• Cockpit Computing Platform Evolution
• Intelligent Cockpit System Development Strategy: Full-stack In-house Development of Software
• Intelligent Cockpit System Architecture: Transitioning to SOA Software Architecture
• Cockpit-Driving Integration Layout
• Cross-domain Integration Layout
• Latest Intelligent Cockpit System Features: AI Tianji System
• HMI Design
• Voice Assistant R&D and Features
• Face and Gesture Recognition R&D and Technical Features
• Collaboration with Zhipu AI Foundation Model to Create Mobility Assistant AI Little P
• MONA M03 Audio System Acoustic Software Development
• 3.3 Leapmotor
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• LEAP 3.5 High-level Cockpit-Driving Integration Central Domain Control Platform
• Configuration of LEAP 3.0 Intelligent Cockpit Standard Solution
• Cockpit-Driving-Parking Integration System
• AI Cockpit
• Connection to DeepSeek-R1
• Digital Cockpit Software: Sound Master
• 3.4 NIO
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• Central Supercomputing Platform: ADAM 2.0
• Central Computing Platform: ADAM
• Intelligent Cockpit Subsystem: SkyOS-C
• Full-Domain AI Vehicle OS
• NOMI GPT AI Agent
• NOMI GPT AI Agent: Technical Block Diagram
• NOMI GPT AI Agent: Cognitive Hub
• NOMI GPT AI Agent: How to Schedule and Distribute
• Self-developed High-fidelity Non-Mic Karaoke Technology
• AR HUD Algorithm Engine
• DMS Algorithm
• 3.5 Xiaomi Auto
• Intelligent Cockpit Hardware Platform Evolution Path: 2024-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2024-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2024-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2024-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2024-2025
• Intelligent Cockpit System
• Intelligent Cockpit Domain Control Platform
• Software System: HyperOS
• Key Highlights of Cockpit Software System (1)
• Key Highlights of Cockpit Software System (2)
• Acoustic System Layout
• Vehicle Voice Control Patent
• Key Intelligent Cockpit Suppliers
• 3.6 Great Wall Motor
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• Intelligent Cockpit System: Coffee OS 3.0
• Self-developed Cockpit OS: GC-OS
• Cockpit-Driving Integration Plan
• Central Computing SOA Software Architecture
• Coffee Agent X DeepSeek
• Coffee AI Voice Assistant
• Dirac Virtuo Professional Technology
• 3.7 GAC Group
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• Intelligent Cockpit Development Plan
• Latest Intelligent Cockpit: ADiGO
• Psi OS
• X-Soul AI Panorama
• GAC Motor's ADiGO SENSE Device-Cloud Integrated Foundation Model
• GAC Motor's ADiGO SENSE Device-Cloud Integrated Foundation Model Deeply Integrates with DeepSeek-R1
• GAC Motor's Collaborated with Huawei Cloud on Application of Pangu Models
• ADIGO MAGIC Scenario Co-creation Platform
• Trumpchi Collaborated with Huawei
• 3.8 SAIC Group
• SAIC IM Motors' Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of SAIC IM Motors' Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of SAIC IM Motors' Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of SAIC IM Motors' Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of SAIC IM Motors' Intelligent Cockpit Subsystems (4): 2023-2025
• AI-powered Cockpit Experience
• IM AIOS Ecosystem Cockpit
• Next-generation All-new Software System: AI OS
• SAIC Z-ONE's First-generation Central Brain: ZXD1
• SAIC Z-ONE's Second-generation Central Brain: ZXD2
• Z-ONE Galaxy(R) Cockpit-Driving Integration Computing Platform: ZXD
• Z-ONE Galaxy Cockpit-Driving Integration Full-stack Hardware and Software Solution
• SAIC IM Motors' New Voice Interaction Experience
• SAIC IM Motors' Theater-level Intelligent Acoustic System
• SAIC IM Motors' HMI Design
• 3.9 BYD
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• New DiLink Cockpit Platform
• New DiLink Cockpit Platform and Hardware Plan
• Cockpit-Driving Integration Layout
• Cockpit Software Architecture: Full-stack Self-developed Technology
• Xuanji AI Large Model
• "Xuanji Architecture" X DeepSeek R1
• Collaboration with Cocos to Develop 3D HMI Cockpit
• Voice Technology Solution
• 3.10 Geely
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• AI OS
• Vehicle OS: GOS
• Intelligent Audio System Solution
• Full-Domain AI Layout
• AI Technology R&D Advantages
• AI Foundation Model Matrix
• Full-stack Self-developed Xingrui AI Foundation Model
• Deeply Coupled with DeepSeek-R1
• 3.11 Changan
• Intelligent Cockpit Hardware Platform Evolution Path: 2022-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• Intelligent Cockpit Architecture of Avatr 11
• Cockpit-Driving Integration Layout: "UNIBrain Hyperbrain Central Computing Platform"
• Tianyu Intelligent Cockpit System
• Tianyu OS
• Intelligent Cockpit AI-native Technology Architecture
• Tianshu Large Model
• Changan AI Model Is Connected to DeepSeek + Tongyi Large Models
• Changan AI Is Connected to Ernie Bot
• Audio System Solution
• 3.12 FAW Hongqi
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• Lingxi Cockpit
• Third-generation Intelligent Cockpit Platform
• Products Based on Three Major Intelligent Cockpit Platforms (a, B, Y)
• Cockpit-Driving Integration Layout
• Intelligent HIS Software Architecture
• FAW.OS
• 3.13 BAIC
• BAIC Arcfox's Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of BAIC Arcfox's Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of BAIC Arcfox's Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of BAIC Arcfox's Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of BAIC Arcfox's Intelligent Cockpit Subsystems (4): 2023-2025
• Latest Cockpit-Driving Integration AI Platform
• High-compute Intelligent Cockpit Domain Control Platform
• BAIC Collaborated with Huawei on Intelligent Cockpit
• BAIC Lingzhi OS Cockpit System
• BAIC Arcfox's AI Multi-model Integration Layout
• BAIC Arcfox's Acoustic System Solution
• BAIC Arcfox's HMI Digital Cockpit Software
• 3.14 Tesla
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• HW4.0 Cockpit Domain
• Cockpit Software Platform
• Grok 3 Large Model
• Microphone Audio System Core Technology
• 3.15 Mercedes-Benz
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• CIVIC Cockpit Hardware (1)
• CIVIC Cockpit Hardware (2)
• MB.OS IVI System
• Hardware Layer of MB.OS
• Software Layer of MB.OS
• Mercedes-Benz X Azure OpenAI, ChatGPT Integration
• Doubao Large Model Is Introduced into Mercedes-Benz Vehicles
• MBUX Virtual Assistant Development Model
• MBUX Virtual Assistant Features
• 3.16 BMW
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• Hyper-sense Intelligent Cockpit
• New Generation OS X
• Intelligent Cockpit HMI Evolution
• Core Features of Intelligent Personal Assistant for New Generation BMW Models
• AI Decision by New Generation BMW Models
• Cockpit Localization Strategy in China: CHINA4CHINA
• IDC23 Cockpit Domain Controller (1)
• IDC23 Cockpit Domain Controller (2)
• IDC23 VS MGU22
• 3.17 Volkswagen
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• Intelligent Cockpit of ID.EVO
• ChatGPT X IDA Voice Assistant
• Intelligent Cockpit Layout
• Software Platform Planning and Layout
• 3.18 Ford
• Intelligent Cockpit Hardware Platform Evolution Path: 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (1): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (2): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (3): 2023-2025
• Summary of Evolution Path of Intelligent Cockpit Subsystems (4): 2023-2025
• Next-gen Vehicle Cockpit Domain Controller: SG5PHX
• Next-gen In-vehicle Infotainment System: Ford and Lincoln Digital Experience
• SYNC 4.0
• SYNC+ of Ford China
• Face Recognition System Patent
• AR HUD Technology Patent
• 3.19 Stellantis Group
• Development Plan
• Three Major Technology Platform Deployments (1)
• Three Major Technology Platform Deployments (2)
• Intelligent Cockpit Platform Deployment
• Intelligent Cockpit AI Deployment

4 Global Intelligent Cockpit Platform System Integrators

• 4.1 Harman
• Summary of Innovative Intelligent Cockpit Platform Products
• Smart Cabin Product: Ready Upgrade
• Latest Cockpit Domain Control Product: Ready Upgrade Base & Advanced
• Lightweight Central Computing Unit (CCU) Platform
• Digital Business Platform: Ready Link Marketplace
• Intelligent Cockpit Hardware Platform Solution
• Intelligent Cockpit Platform
• Scalable Intelligent Cockpit Solution
• Propose A Modular and Combinable Cockpit Cooperation Model
• Development Plan for Integrating Intelligent Cockpit and ADAS Functions
• Intelligent Cockpit Pre-Integrated with ADAS Functions
• Development Trends of Intelligent Cockpit Underlying Architecture: Intelligent Cockpit Underlying Architecture
• Cockpit Software Platform Architecture
• 4.2 Visteon
• Summary of Innovative Intelligent Cockpit Platform Products
• Core Performance and Main Functions of Intelligent Cockpit Platform Products
• Multi-Domain Integration Evolution Path: Promoting the Integration of SmartCore and ADAS into a Unified Solution
• SmartCore AI High-Performance Cockpit Platform
• SmartCore(TM) HPC High-Performance Intelligent Cockpit Computing Platform
• SmartCore(TM) Multi-Domain Fusion Controller
• Fourth-Generation SmartCore Cockpit Domain Control Products: Premium & Luxury
• Fourth-Generation SmartCore Cockpit Domain Control Products: Flagship
• SmartCore(TM) China Cockpit Domain Control Platform Product
• Fourth-Generation SmartCore Cockpit Platform
• SmartCore Cockpit Platform Software Architecture
• In-Vehicle Infotainment System (IVI) Software Architecture
• 4.3 FORVIA
• Summary of Innovative Intelligent Cockpit Platform Products
• Main Functions of Intelligent Cockpit Hardware Platform Products
• Latest Cross-Domain Integrated Cockpit Solution
• Smart*Aureate Cockpit
• Cockpit Intelligence Platform
• Cockpit Domain Controller: Continuously Evolve, and Integrate More Functions
• Cockpit Domain Controllers
• Cockpit Domain Controller Planning Goals
• Cockpit Application Software Product: Vehicle App Store Appning
• 4.4 Aptiv
• Summary of Innovative Intelligent Cockpit Platform Products
• Cockpit Domain in SVA(TM) Hardware Platform
• Intelligent Cockpit Platform Evolution Trends
• Cockpit Domain Development Plan
• Cross-Domain Integration Digital Foundation: Software Architecture
• New Generation Intelligent Cockpit Platform
• High-Performance Intelligent Cockpit Platform
• Cockpit Cross-Domain Integration Computing Platform
• Software Strategy and Software Development Solutions
• Cockpit Domain in SVA(TM) Hardware Platform
• 4.5 Bosch
• Summary of Innovative Intelligent Cockpit Platform Products
• Core Performance and Main Functions of Intelligent Cockpit Platform Products
• Evolution of Taiji Platform Products for Intelligent Cockpits
• Taiji Platform 3.0: AI Cockpit Platform
• First-Generation Cockpit-Driving Integration Platform: Product Based on Qualcomm SA8775P Platform
• Cockpit-Driving Integration Solution Design
• Taiji Cockpit Platform 1.0 and Taiji Cockpit Platform 2.0
• Flexible Cooperation Models for Intelligent Cockpits
• Bosch China's Local Cockpit Open Cooperation Model
• 4.6 Continental
• HPC
• Cockpit HPC
• Cockpit HPC
• Cockpit HPC: Hardware-Software Separation Architecture
• 4.7 Denso
• List of Intelligent Cockpit Domain Control Platform Products
• Cockpit Development Plan
• Cockpit Integrated Control System
• Cockpit Integrated Control System Based on Virtualization Technology
• Cockpit Domain Controller Harmony Core
• Cross-Domain Layout
• Software Layout in CASE Strategy
• Semiconductor Layout in CASE Strategy
• In 2035 "Peace of Mind" Strategy, Future Cockpit and Intelligent Driving Will Deeply Integrate
• Peace of Mind Intelligent Cockpit System Development Blueprint
• Localized Layout for China
• 4.8 Marelli
• Summary of Innovative Intelligent Cockpit Platform Products
• Intelligent Cockpit Platform Evolution Path
• AIO Integrated IVI Solution
• New Integrated Cockpit and Connectivity Platform ProConnect
• Fourth-Generation Cockpit Domain Control Platform MInD-Xp

5 Chinese Intelligent Cockpit System Integrators

• 5.1 PATEO CONNECT+
• Summary of Innovative Intelligent Cockpit Platform Products
• Status Quo and Trends of Intelligent Cockpit Platform Layout: Cross-Domain Platform
• Current Status and Trends of Intelligent Cockpit Platform Layout: Cockpit-only Platform
• Current Status and Trends of Intelligent Cockpit Platform Layout: Other Cockpit-only Platforms
• Intelligent Cockpit Platform Roadmap
• Intelligent Cockpit Revenue by Solution, 2022-2024
• Intelligent Cockpit Shipments and Revenue, 2022-2024
• Device-Cloud Integrated Intelligent Cockpit AI Agent Platform
• Creating the Next-Generation Intelligent Cockpit Solution with the Snapdragon(R) Cockpit Elite Platform
• Qinggan Vehicle Intelligent Cockpit Platform
• Cockpit-Driving Integration Platform Products
• Central Computing Platform Products
• In-depth Cooperation with Huawei on Cockpits
• Major Clients
• Dynamics in Cockpit Collaboration
• 5.2 Desay SV
• Summary of Innovative Intelligent Cockpit Platform Products
• Evolution Trends of Intelligent Cockpit Platforms
• Core Performance and Main Functions of Intelligent Cockpit Platform Products
• Smart Solution 3.0
• Fifth-Generation AI Cockpit Platform: G10PH
• Central Computing Platform Product: ICPS02H
• Next-Generation AI Cockpit: Based on SemiDrive X10 Solution
• Next-Generation Cockpit-Driving Integration Layout
• Central Computing Platform Integrating Multiple Domains Including Cockpit, Intelligent Driving and Connectivity
• Fourth-Generation Intelligent Cockpit System: G9PH
• Fourth-Generation Intelligent Cockpit Domain Control Platform: G9SH
• Localized Intelligent Cockpit Domain Control Platform: DS06C
• Global Intelligent Cockpit Platform: Gouxin V5/GXV5
• Cockpit Space V-AIOT Hardware-Software Integrated Innovative Solution
• 5.3 ADAYO
• Summary of Innovative Intelligent Cockpit Platform Products
• Core Performance and Main Functions of Intelligent Cockpit Platform Products: Multi-Domain Platforms
• Intelligent Cockpit Layout Plan
• Cockpit-Driving Integration Domain Control Platform Solution
• Cockpit Domain Control Solution Based on Qualcomm 8255
• Evolution of ADAYO Automotive Open Platform (AAOP)
• AAOP: Five Key Features
• 5.4 Joyson Electronics
• Summary of Joyson Electronics' Intelligent Cockpit Platform Innovative Products
• Joyson Electronics' Intelligent Cockpit Evolution Roadmap
• Evolution Trends of Joyson Electronics' Intelligent Cockpit Platforms
• Core Performance and Main Functions of Joyson Electronics' Intelligent Cockpit Platform Products
• JOYNEXT's Third-Generation Intelligent Cockpit Platform Product Based on Qualcomm 8255
• JOYNEXT's Intelligent Connected Central Computing Unit: nCCU2.0 Solution
• JOYNEXT's Intelligent Connected Central Computing Unit: Overall Technical Solution
• JOYNEXT's nCCU Based on Black Sesame Intelligent Chips - Central Computing Unit Products (1)
• JOYNEXT's nCCU Based on Black Sesame Intelligent Chips - Central Computing Unit Products (2)
• JOYNEXT's Central Computing Platform Evolution: "FlexBlade" Concept
• JOYNEXT Deepens Collaboration with Huawei to Build A New Intelligent Cockpit Ecosystem
• Joyson Electronics Establishes A Specialized Software Company to Strengthen Software Innovation
• 5.5 Huawei
• Summary of Innovative Intelligent Cockpit Platform Products
• Overview of Intelligent Automotive Solutions Business
• Intelligent Cockpit Solution
• Intelligent Cockpit Computing Platform: 9610 IVI Module
• Next-Generation HarmonyOS Cockpit: HarmonySpace 5.0
• Intelligent Cockpit Operating System: HOS
• Harmony Cockpit OS Development
• Harmony Cockpit OS Ecosystem
• HiCar Development Platform
• Intelligent Automotive Business Model: Smart Selection Upgraded to Harmony Intelligent Mobility Alliance (HIMA)
• Major New Cooperative Vehicle Models of HIMA
• 5.6 ThunderSoft
• Summary of Innovative Intelligent Cockpit Platform Products
• Core Performance and Main Functions of Intelligent Cockpit Platform Products: Cross-Domain Platform
• Core Performance and Main Functions of Intelligent Cockpit Platform Products: Cockpit Software
• Thunder Auto OS Evolution Route: Cockpit OS -> Vehicle OS
• AquaDrive OS 1.0 Evo
• Reshaping the Next Generation Intelligent Cockpit Solution for Immersive Mobility Experience for Intelligent Vehicles: E-Cockpit 9.0
• Kanzi Immersive Linking: Cross-Screen Immersive Experience Innovator
• AI-Native Vehicle Operating System for Central Computing: AquaDrive OS
• Vehicle Operating System AquaDrive OS Versions
• AquaDrive OS Ecosystem Partners
• RUBIK Auto Pi Open-Source Project of Subsidiary ThunderX
• Cockpit-Parking Integration Digital Cockpit Platform
• Next-Generation 3D Cockpit Platform
• Hardware-Software Integrated Single SoC Cockpit-Driving Integration Domain Control Solution
• Hardware-Software Integrated Single SoC Cockpit-Driving Integration Domain Control Solution: Reference Design
• Production-ready Cockpit-Parking Integration Domain Control Solution: RazorDCX Tongass
• Business Model
• Partners
• 5.7 Hangsheng Electronics
• Summary of Innovative Intelligent Cockpit Platform Products
• Business Layout
• Intelligent Cockpit Platform Evolution Path
• Core Performance and Main Functions of Intelligent Cockpit Platform Products:
• Next-Generation Mozi Cockpit-Driving Cross-Domain Integration Platform
• Fourth-Generation Yizhi Intelligent Cockpit Platform
• BiSheng Platform-GEN 5E Infotainment System
• Core Capabilities of Third-Generation Cockpit
• Cockpit Hardware-Software Separation Layered Design Architecture
• 5.8 BICV
• Summary of Innovative Intelligent Cockpit Platform Products
• Intelligent Cockpit Platform Evolution Trends
• Core Performance and Main Functions of Intelligent Cockpit Platform Products (1)
• Intelligent Cockpit Platform Layout Evolution
• MARS-06 Intelligent Cockpit AI Original Smart Mobility Space
• MARS-03 Localized Intelligent Cockpit Product
• Zhiyu 2.0-Cockpit-Parking Integration Platform
• Zhiyu 2.0 Cockpit-Driving Integration Product
• Zhiyu 1.0 Integrated Cockpit Domain Control Product
• Software Business Layout
• 5.9 ECARX
• Summary of Innovative Intelligent Cockpit Platform Products
• Full-Stack Technology Products
• Evolution of Cockpit Computing Platform Products
• Core Performance and Main Functions of Intelligent Cockpit Platform Products:
• Qogir Intelligent Cockpit Computing Platform Product
• Atlas Intelligent Cockpit Computing Platform Product
• Pikes Intelligent Cockpit Computing Platform Product
• Antora(R) 1000 PLUS Central Computing Platform: Single-Chip Powerful AI Performance
• Super Brain Antora SPB Series Computing Platform
• Antora(R) 1000 PLUS Computing Platform
• Antora(R) 1000 AI Enhanced Computing Platform
• Super Brain Antora Series Computing Platform
• Makalu Intelligent Cockpit Computing Platform
• Cockpit-Driving Integration Products
• Cockpit-Driving Integration (2)
• Cloudpeak Cross-Domain Software Platform
• Vehicle Foundation Model: ECARX AutoGPT
• Vehicle HMI System: ECARXperience
• Flyme Auto IVI System
• Major Production Vehicles Models
• Key Clients and Partners
• 5.10 AutoLink
• Summary of Innovative Intelligent Cockpit Platform Products
• Core Performance and Main Functions of Intelligent Cockpit Platform Products
• Al-A1 Cockpit-Driving Integration Platform Product
• AL-C2 High-End Cockpit Platform Product
• AL-C1 Intelligent Cockpit Platform
• AL-N1 Localized Intelligent Cockpit Platform Product
• AL-l1 Intelligent Cockpit Platform Product
• 5.11 NavInfo
• Summary of Innovative Intelligent Cockpit Platform Products
• Evolution of AutoAI's Intelligent Cockpit Platform Products
• Core Performance and Main Functions of Intelligent Cockpit Platform Products
• Cockpit-Parking Integration Mid-End Product
• Cockpit-Driving-Parking Integration Product
• Cockpit-Driving-Parking Integration Solution Based on AutoChips AC8025
• Cockpit-Driving Integration Domain Control Solutions (1)
• Cockpit-Driving Integration Domain Control Solutions (2)
• Open-Source Intelligent Cockpit OS Platform Code
• 5.12 ArcherMind
• Summary of Innovative Intelligent Cockpit Platform Products
• Evolution of Intelligent Cockpit Software Platform Products (1)
• Evolution of Intelligent Cockpit Software Platform Products (2)
• FusionOS4.0 Cockpit-Driving Integration
• ArraymoAIOS 2.0
• Cockpit AI Agent
• Eighth-Generation Intelligent Cockpit System: FusionEX8.0
• Hongzhi Automotive Cockpit System
• Cross-Domain Integration Vehicle Software Computing Platform
• Central Control Domain Software Platform FusionWise3.0: Cross-Domain Software OS Solution
• Subsidiary Arraymo's Intelligent Cockpit System Based on Qualcomm 8295
• Subsidiary Arraymo's Intelligent Cockpit System
• ArcherMind and BMW Established A Software Development Joint Venture Company, and Partnered with EB for Distribution
• 5.13 KOTEI Informatics
• Summary of Innovative Intelligent Cockpit Platform Products
• Evolution of Intelligent Cockpit Software Platform Products
• Vehicle Operating System: A2OS
• A2OS Premium for Central Computing and Cross-Domain Integration
• A2OS Standard for Intelligent Driving and Cockpit Domain Control
• A2OS Lite for MCU and Zonal Controllers
• Software Platform Solutions for Central Computing (1)
• Software Platform Solutions for Central Computing (2)
• Central Domain Control Solution
• Localized Intelligent Cockpit Solution
• Localized Intelligent Cockpit Solution Layout: Collaboration with SemiDrive
• Super Software Factory: SDW2.5