智慧汽车前瞻一体机产业（2025）

2024年1-10月前瞻性一体机安装总量将达810万台，渗透率达45.7%。

前视一体机主要整合前视摄影机模组、影像处理单元（CPU/GPU/DSP）以及智慧驾驶软体演算法。它通常还包括通讯单元等必要的硬体组件。

这台前瞻一体机集感知与计算于一体，搭载自有操作系统和应用程序，能够自主完成智能驾驶的数据采集、处理、决策的全过程。主要用于实现车道维持辅助（LKA）、自动紧急煞车（AEB）、自适应巡航控制（ACC）等前向ADAS功能。前视一体机可连接前向雷达，实现视觉与雷达融合感知，提高驾驶安全性，丰富ADAS功能。

1.前视一体机是经济实用型车型部署L2智慧驾驶系统的最佳选择。

前瞻性的一体机具备成本优势

从最迫切的成本节约角度来说，前向一体机的采购成本明显低于摄影机模组+网域控制器的方案。目前，主流前瞻一体机大部分算力在5TOPS以内，且有成熟、高性价比的晶片可以满足Mobileye EyeQ4H、RenesasV3H以及Horizo□□□□n J2、J3等L2级智慧驾驶系统的要求。总采购成本在百元层级。同时，目前主流的网域控制器大多运算能力在100TOPS以上，采购成本高达数千元。即便是应用于L2级智慧驾驶系统的低算力域控制器，成本也难以控制在千元以下。另外，前瞻一体机方案相对于前瞻+网域控制器方案，减少了单独开发/采购网域控制器软体和硬体的成本。

具有前瞻性的一体机，可快速部署ADAS功能

这款具有前瞻性的一体机具有紧凑的产品设计，不需要对车辆的结构设计进行重大改变。透过提供即插即用功能，它可以快速部署 ADAS 功能并降低大规模生产期间的整体专案风险。但由于前视一体机搭载于挡风玻璃上，因此有尺寸限制，难以整合多个模组。因此，它们无法扩展以支援先进的智慧驾驶功能，并且难以满足 L2.5 及以上级别的功能要求。

2024年1-10月前瞻一体机安装总量突破810万台，渗透率达45.7%。

2024年1-10月，中国乘用车搭载L2以上智慧驾驶系统保有量达1001万辆，渗透率为56.4%，前视一体机累计保有量达811.7万辆，渗透率为45.7%。

前向一体机为714.8万辆，在L2市场占比高达95%，而网域控制器仅占6.1%（有少量乘用车同时搭载前向一体机和网域控制器，因此合计超过100%）。

本报告调查中国汽车产业，分析前瞻一体机的优势与劣势、发展动力、商业模式、市场应用、安装数量、渗透率、供应商竞争格局。

目录

第1章 前瞻一体机概述与市场应用

• 前瞻性一体机概述
  • 前瞻一体机与前瞻模组对比，优缺点
  • 前瞻性一体机 vs. 网域控制站：优势与市场定位
  • 前瞻性一体机发展的推动因素
  • 前瞻性的一体机商业模式
• 具有前瞻性的一体机的市场应用
  • 安装数量、成长率、普及率
  • 安装量分布：以智慧驾驶等级划分的安装量及渗透率
  • 安装分布：以智慧驾驶等级划分的安装率
  • 装置容量分布：按型号和价格划分的装置容量和渗透率
  • 安装分布：按型号和价格划分的安装率
  • "潜在市场" 是L1以下、售价20万元以下的乘用车
  • 安装数量分布：依电源类型、渗透率和安装率划分的安装数量
  • 装置容量分布：依价格区间划分的电源类型占比
  • 十大品牌与型号
  • 安装数量分布：各感测解决方案的数量及安装率
  • 安装数量分布：单目/双目数及安装率、单目前向监控像素

第 2 章 前瞻性一体机的竞争格局与供应商

• 前瞻性一体机供应商的竞争格局
• 前瞻一体机主要产品总表（一）
• 前瞻一体机主要产品总表（二）
• 前瞻一体机主要产品总整理（三）
• 前瞻一体机主要产品总表（四）
• Valeo
• Autonomous Driving Product Matrix
• Bosch
• Denso
• ZF
• Magna - Veoneer
• Magna
• Jingwei Hirain
• NavInfo
• Freetech
• Aptiv
• Bethel
• Neusoft Reach
• Continental
• MAXIEYE
• iMotion
• Hirige
• Hongjing Drive
• Yihang AI
• MINIEYE
• JIMU Intelligent
• Suzhou INVO
• Metoak Technology

第3章 前瞻一体机SoC晶片竞争格局及供应商

• 前瞻性一体机对SoC晶片的要求
• 前瞻一体机SoC晶片竞争格局
• 前瞻一体机主要量产SoC晶片总合（一）
• 前瞻一体机主要量产SoC晶片总合（二）
• Mobileye
• Renesas
• Xilinx (AMD's Embedded Business Unit)
• Horizon Robotics
• NXP
• Texas Instruments
• AXERA
• Ambarella

Total installation volume of forward-looking all-in-one machine in the first ten months of 2024 reached 8.1 million units, with a penetration rate of 45.7%

ResearchInChina released the "Intelligent Automotive Forward-looking All-in-one Machine Industry Report, 2025", which studies and analyzes the advantages and disadvantages, development drivers, business modes, market application & installation volume and penetration rate of forward-looking all-in-one machine (compared with forward-looking modules & domain controllers ) , distribution characteristics in different market fields (including passenger car intelligent driving levels, price ranges, power types, perception solutions, monocular and binocular configurations, pixel configurations), the top 10 OEM brands and models in terms of installation volume, supplier competition landscape and their products, and chip supplier competition landscape and their products.

The forward-looking all-in-one machine is mainly integrated with forward-looking camera modules, image processing units (CPU/GPU/DSP) and intelligent driving software algorithms. It also typically includes essential hardware components such as communication units.

The forward-looking all-in-one machine integrates perception and computing, comes with its own operating system and applications, and can independently complete the entire process of data collection, processing, and decision for intelligent driving. It is mainly used to realize forward ADAS functions such as lane keeping assist (LKA), automatic emergency braking (AEB), and adaptive cruise control (ACC). The forward-looking all-in-one machine can access to forward radar to achieve the fusion perception of vision and radar, improve driving safety, and enrich ADAS functions.

1. Forward-looking all-in-one machine is the best choice for deploying L2 intelligent driving systems in economical and practical models

Forward-looking all-in-one machine has cost advantages

From the perspective of the most urgent cost reduction, procurement cost of forward-looking all-in-one machine is significantly lower than that of camera module + domain controller solution. Currently, computing power of mainstream forward-looking all-in-one machines is mostly within 5 TOPS, and mature and cost-effective chips can meet requirements of L2 intelligent driving systems, such as Mobileye EyeQ4H, Renesas V3H, and Horizon J2 & J3. The total procurement cost is at the hundred-yuan level. In contrast, mainstream domain controllers today mostly have computing power exceeding 100 TOPS, with procurement costs in the thousands of yuan. Even low-computing domain controllers applied in L2 intelligent driving systems struggle to keep costs below a thousand yuan. Additionally, the forward-looking all-in-one machine solution reduces the cost of separately developing/procuring domain controller software and hardware compared to the forward-looking + domain controller solution.

Forward-looking all-in-one machine for rapid deployment of ADAS functions

The forward-looking all-in-one machine features a compact product design, eliminating the need for significant changes to vehicle structural design. It offers plug-and-play functionality, enabling rapid deployment of ADAS functions and reducing overall project risks during mass production. However, since the forward-looking all-in-one machine is installed on the windshield, its size is limited, making it difficult to integrate multiple modules. As a result, it cannot expand to support advanced intelligent driving functions and struggles to meet the requirements of L2.5 and above functionalities.

In the first ten months of 2024, the total installation volume of forward-looking all-in-one machine exceeded 8.1 million units, with a penetration rate of 45.7%.

From January to October 2024, the installation volume of L2 and above intelligent driving systems for China's passenger cars reached 10.01 million sets, with a penetration rate of 56.4%; the total installation volume of forward-looking all-in-one machine was 8.117 million sets, with a penetration rate of 45.7%.

Forward-looking all-in-one machine has an installation volume of 7.148 million sets, accounting for as high as 95% in the L2 market, while the domain controller accounts for only 6.1% (because a small number of passenger cars are equipped with both forward-looking all-in-one machine and domain controller, the sum of the two is greater than 100%).

Outstanding performance in the passenger car market below RMB 200,000

According to the data analysis of this report, Forward-looking all-in-one machine has a great advantage in the market of vehicles below 200,000 yuan. From January to October 2024, the sales volume of passenger cars below 200,000 yuan equipped with forward-looking all-in-one machine accounted for 41.6%, while the sales volume of domain controller accounted for only 2.8%. The proportion of passenger cars above 350,000 yuan is higher than that of domain controller, mainly because joint venture brands of fuel vehicles, such as Mercedes-Benz, Audi, Toyota, and BMW, have adopted it in large quantities.

In summary, in the future, passenger cars with L1 and below (NL+L0+L1) and priced below RMB 200,000 are the "potential market" for forward-looking all-in-one machine. These vehicles are likely to be upgraded to L2 systems under future safety regulations and driver experience requirements. This market accounts for more than one-third of the total passenger car market. From January to October 2024, the sales volume of passenger cars with L1 and below (NL+L0+L1) and priced below RMB 200,000 reached 6.662 million units, accounting for 37.5% of the total.

2. Foreign suppliers occupy the main market of forward-looking all-in-one machine, and local suppliers have made new breakthroughs in the market

According to the competitive landscape of forward-looking all-in-one machine from January to October 2024, the top 5 suppliers are all foreign-funded enterprises, accounting for a total of 69.0%; the main customers of foreign-funded suppliers are joint venture brand OEMs, such as Toyota, Volkswagen, Honda, Mercedes-Benz, BMW, Audi, etc., while BYD also has a certain amount of consumption. The main advantages of foreign-funded suppliers are early entry into the automotive market, rich and mature product lines, and stable cooperation with joint venture automakers. For example, Valeo, Bosch, and Denso are all century-old global companies in the automotive field. Their intelligent driving products cover a full range of products such as perception (camera modules, radars, ultrasonic radars, lidars), domain controller, and solutions.

Among the top 10, the four local suppliers, Jingwei Hirain, NavInfo, Freetech, and Bethel, have a combined market share of 18.7%; the main customers of local suppliers are local brand OEMs, such as BYD, Geely, Hongqi, Changan, etc. Although current market share of local suppliers is small, the potential market (L1 and below passenger cars within 200,000 yuan) is dominated by Chinese OEMs, such as BYD, Wuling, Geely, Changan, GAC, Chery, etc., which will be a good expansion opportunity for local suppliers.

In 2024, domestic suppliers of forward-looking all-in-one machines achieved significant market breakthroughs:

(1) In January 2024, Hongjing Drive's forward-looking all-in-one machine product IPM2.0 was firstly mass-produced on JAC Refine RF8, followed by Neta L in April. This product utilizes the Horizon J3 chip and features 8MP resolution and a 120° horizontal field of view for visual perception.

(2) In February 2024, iMotion used 1V solution (vision-only technology) to help a leading domestic automaker successfully pass the EU's new GSR regulations certification. The 1V solution (single smart camera) is iMotion's forward-looking all-in-one machine IFC 3.0, which can support intelligent speed assistance (ISA), automatic emergency braking (AEB), lane departure warning (LDW) and other functions.

(3) In September 2024, NavInfo secured a contract with Great Wall Motors to supply intelligent forward-looking control module products (i.e., forward-looking all-in-one machines) based on Horizon chips for some models set for mass production and launch starting in 2024Q4.

In 2024, a large number of local new and old models begin to be equipped with forward-looking all-in-one machine, and adopt products from local suppliers to create economical and practical intelligent driving assistance functions for ordinary consumers.

Table of Contents

1 Overview of Forward-looking All-in-one Machine and Its Market Application

• 1.1 Overview of Forward-looking All-in-one Machine
  • 1.1.1 Comparison and Advantages & Disadvantages between Forward-looking All-in-one Machine and Forward-looking Module
  • 1.1.2 Forward-looking All-in-one Machine vs. Domain Controller: Advantages and Market Positioning
  • 1.1.3 Forward-looking All-in-one Machine Development Driving Force
  • 1.1.4 Forward-looking All-in-one Machine Business Modes
• 1.2 Market Application of Forward-looking All-in-one Machine
  • 1.2.1 Installation Volume, Growth Rate, and Penetration Rate
  • 1.2.2 Installation Volume Distribution: Installation Volume and Penetration Rate of Different Intelligent Driving Levels
  • 1.2.3 Installation Volume Distribution: Installation Proportion of Different Intelligent Driving Levels
  • 1.2.4 Installation Volume Distribution: Installation Volume and Penetration Rate of Different Models and Prices
  • 1.2.5 Installation Volume Distribution: Installation Proportion by Price for Different Models
  • 1.2.6 "Potential Market" is L1 and below Passenger Cars Priced under RMB 200,000
  • 1.2.7 Installation Volume Distribution: Installation Volume, Penetration Rate, and Installation Proportion of Different Power Types
  • 1.2.8 Installation Volume Distribution: Proportion of Power Types by Price Range
  • 1.2.9 Top 10 Brands and Models by Installation Volume
  • 1.2.10 Installation Volume Distribution: Installation Volume and Installation Proportion by Perception Solution
  • 1.2.11 Installation Volume Distribution: Installation Volume and Installation Proportion of Monocular / Binocular and Monocular Forward-looking Pixel

2 Forward-looking All-in-one Machine Competition Landscape and Suppliers

• 2.1 Forward-looking All-in-one Machine Supplier Competition Landscape
• 2.2 Forward-looking All-in-one Machine Main Product Summary (1)
• 2.2 Forward-looking All-in-one Machine Main Product Summary (2)
• 2.2 Forward-looking All-in-one Machine Main Product Summary (3)
• 2.2 Forward-looking All-in-one Machine Main Product Summary (4)
• 2.3 Valeo
  • 2.3.1 Profile
  • 2.3.2 Revenue
  • 2.3.3 Important Layout in China
• 2.3. Autonomous Driving Product Matrix
  • 2.3.5 Forward-looking All-in-one Machine Product Overview
  • 2.3.6 Forward-looking All-in-one Machine Product Details
  • 2.3.7 Advanced Driver Assistance System Based on Forward-looking All-in-one Machine
• 2.4 Bosch
  • 2.4.1 Profile
  • 2.4.2 Revenue
  • 2.4.3 Layout in China
  • 2.4.4 Autonomous Driving Product Matrix
  • 2.4.5 Forward-looking All-in-one Machine Product Overview
  • 2.4.6 Forward-looking All-in-one Machine Product Details (1)
  • 2.4.7 Forward-looking All-in-one Machine Product Details (2)
  • 2.4.8 Forward-looking All-in-one Machine Product Details (3)
  • 2.4.9 Forward-looking All-in-one Machine Product Details (4)
  • 2.4.10 Forward-looking All-in-one Machine Product Details (5)
• 2.5 Denso
  • 2.5.1 Profile and Revenue
  • 2.5.2 Autonomous Driving Product Layout and Forward-Looking Product Market Dynamics
  • 2.5.3 Latest "Image Processing Device" Patent
  • 2.5.4 Forward-looking All-in-one Machine Product Overview
  • 2.5.5 Forward-looking All-in-one Machine Product Details (1)
  • 2.5.6 Forward-looking All-in-one Machine Product Details (2)
  • 2.5.7 Global Safety System GSP
• 2.6 ZF
  • 2.6.1 Profile
  • 2.6.2 Revenue
  • 2.6.3 Autonomous Driving Product Layout
  • 2.6.4 Forward-looking All-in-one Machine Product Overview
  • 2.6.5 Forward-looking All-in-one Machine Product Details (1)
  • 2.6.6 Forward-looking All-in-one Machine Product Details (2)
  • 2.6.7 Forward-looking All-in-one Machine Product Details (3)
  • 2.6.8 Forward-looking All-in-one Machine Product Details (4)
• 2.7 Magna - Veoneer
  • 2.7.1 Magna Acquires Veoneer's Active Safety Business Module
  • 2.7.2 Forward-looking All-in-one Machine Product Overview
  • 2.7.3 Forward-looking All-in-one Machine Product Iteration Process
  • 2.7.4 Forward-looking All-in-one Machine Products
• 2.8 Magna
  • 2.8.1 Profile
  • 2.8.2 Revenue
  • 2.8.3 Global Business Distribution
  • 2.8.4 Power & Vision Division
  • 2.8.5 Autonomous Driving Product Layout
  • 2.8.6 Forward-looking All-in-one Machine Products
• 2.9 Jingwei Hirain
  • 2.9.1 Profile
  • 2.9.2 Revenue
  • 2.9.3 Core Leaders
  • 2.9.4 Automotive Electronics Products
  • 2.9.5 Forward-looking All-in-one Machine Product Development History
  • 2.9.6 Forward-looking All-in-one Machine Product Overview
  • 2.9.7 Forward-looking All-in-one Machine Product Details
• 2.10 NavInfo
  • 2.10.1 Profile and Business Layout
  • 2.10.2 Operations
  • 2.10.3 Forward-looking All-in-one Machine Products
  • 2.10.4 Ecosystem Partners
  • 2.10.5 Major Customers and Partners
• 2.11 Freetech
  • 2.11.1 Profile
  • 2.11.2 Revenue
  • 2.11.3 Forward-looking Product Portfolio
  • 2.11.4 Forward-looking All-in-one Machine Product Production Process Flowchart
  • 2.11.5 Forward-looking All-in-one Machine Product Overview
  • 2.11.6 Forward-looking All-in-one Machine Product Details (1)
  • 2.11.7 Forward-looking All-in-one Machine Product Details (2)
  • 2.11.8 Forward-looking All-in-one Machine Product Details (3)
  • 2.11.9 Forward-looking All-in-one Machine Product Details (4)
• 2.12 Aptiv
  • 2.12.1 Profile
  • 2.12.2 Revenue
  • 2.12.3 Strategic Layout in China
  • 2.12.4 Autonomous Driving Product Layout
  • 2.12.5 Forward-looking All-in-one Machine Product Overview
  • 2.12.6 Forward-looking All-in-one Machine Product Development History
  • 2.12.7 Forward-looking All-in-one Machine Product Details
  • 2.12.8 Forward-looking All-in-one Machine and Radar Integrated System
• 2.13 Bethel
  • 2.13.1 Profile
  • 2.13.2 Revenue
  • 2.13.3 Forward-looking All-in-one Machine Products
• 2.14 Neusoft Reach
  • 2.14.1 Profile
  • 2.14.2 Core Team Members
  • 2.14.3 Autonomous Driving Product Matrix
  • 2.14.4 Forward-looking All-in-one Machine Product Overview
  • 2.14.5 Forward-looking All-in-one Machine Product Details
• 2.15 Continental
  • 2.15.1 Profile
  • 2.15.2 Revenue
  • 2.15.3 Organizational Structure and Its Change History
  • 2.15.4 Autonomous Driving Product Layout
  • 2.15.5 Forward-looking All-in-one Machine Product Overview
  • 2.15.6 Forward-looking All-in-one Machine Product Details (1)
  • 2.15.7 Forward-looking All-in-one Machine Product Details (2)
• 2.16 MAXIEYE
  • 2.16.1 Profile
  • 2.16.2 Intelligent Driving Technology Deployment: Full-stack Deployment from Perception to Planning & Control
  • 2.16.3 Forward-looking All-in-one Machine Product Overview
  • 2.16.4 Forward-looking All-in-one Machine Iteration Process
  • 2.16.5 Forward-looking All-in-one Machine Product Positioning
  • 2.16.6 Forward-looking All-in-one Machine Product Details (1)
  • 2.16.7 Forward-looking All-in-one Machine Product Details (2)
• 2.17 iMotion
  • 2.17.1 Profile
  • 2.17.2 Revenue
  • 2.17.3 Intelligent Driving Product Layout
  • 2.17.4 Intelligent Driving Product Roadmap Planning
  • 2.17.5 Forward-looking All-in-one Machine Products (1)
  • 2.17.6 Forward-looking All-in-one Machine Products (2)
  • 2.17.7 Forward-looking All-in-one Machine Helps A Leading Independent OEM Pass EU's New GSR Regulations Certification
  • 2.17.8 Obtained ISO/IEC 27001 Information Security Management System Certification
  • 2.17.9 Main Partners
• 2.18 Hirige
  • 2.18.1 Profile
  • 2.18.2 Core Technology for Target Detection
  • 2.18.3 Forward-looking All-in-one Machine Products
• 2.19 Hongjing Drive
  • 2.19.1 Profile
  • 2.19.2 Product Matrix
  • 2.19.3 Forward-looking All-in-one Machine Products (1)
  • 2.19.4 Forward-looking All-in-one Machine Products (2)
• 2.20 Yihang AI
  • 2.20.1 Profile
  • 2.20.2 Core Team Members
  • 2.20.3 Equity Structure and Production Capacity
  • 2.20.4 Product Layout
  • 2.20.5 Forward-looking All-in-one Machine Products
• 2.21 MINIEYE
  • 2.21.1 Profile
  • 2.21.2 Revenue
  • 2.21.3 Product Matrix
  • 2.21.4 Forward-looking All-in-one Machine Products
• 2.22 JIMU Intelligent
  • 2.22.1 Profile
  • 2.22.2 Algorithm Technology
  • 2.22.3 Expanded from Commercial Vehicles to Passenger Cars
  • 2.22.4 Intelligent Driving Solution for Passenger Cars
  • 2.22.5 Forward-looking All-in-one Machine Products (1)
  • 2.22.6 Forward-looking All-in-one Machine Products (2)
• 2.23 Suzhou INVO
  • 2.23.1 Profile
  • 2.23.2 Forward-looking All-in-one Machine Products
  • 2.23.3 Cooperative Customers and Ecological Partners
• 2.24 Metoak Technology
  • 2.24.1 Profile
  • 2.24.2 Product Layout
  • 2.24.3 Binocular Technology Strength
  • 2.24.4 Self-Developed Stereo Vision Chip
  • 2.24.5 Binocular Vision Technology: Deep Fusion Architecture
  • 2.24.6 Forward-looking All-in-one Machine Products (1)
  • 2.24.7 Forward-looking All-in-one Machine Products (2)

3 Forward-looking All-in-one Machine SoC Chip Competition Landscape and Suppliers

• 3.1 Forward-looking All-in-one Machine Requirements for SoC Chips
• 3.2 Forward-looking All-in-one Machine SoC Chip Competition Landscape
• 3.3 Forward-looking All-in-one Machine Summary of Major Mass-produced SoC Chips (1)
• 3.3 Forward-looking All-in-one Machine Summary of Major Mass-produced SoC Chips (2)
• 3.4 Mobileye
  • 3.4.1 Profile
  • 3.4.2 Revenue
  • 3.4.3 Core Team Managers
  • 3.4.4 Five Technology Pillars
  • 3.4.5 Intelligent Driving Chip Iteration
  • 3.4.6 Intelligent Driving Chip Product Overview
  • 3.4.7 Intelligent Driving Chip Product EyeQ4 (1)
  • 3.4.8 Intelligent Driving Chip Product EyeQ4 (2)
  • 3.4.9 Intelligent Driving Chip Product EyeQ4 (3)
  • 3.4.10 Intelligent Driving Chip Product EyeQ5 (1)
  • 3.4.11 Intelligent Driving Chip Product EyeQ5 (2)
  • 3.4.12 Intelligent Driving Chip Product EyeQ5 (3)
  • 3.4.13 Intelligent Driving Chip Product EyeQ6 (1)
  • 3.4.14 Intelligent Driving Chip Product EyeQ6 (2)
  • 3.4.15 Intelligent Driving Chip Product EyeQ6 (3)
  • 3.4.16 Intelligent Driving Chip Product EyeQ(R) Ultra(TM)
  • 3.4.17 Software Development Kit for EyeQ(R) Chip
  • 3.4.18 EyeQ(R) Chip-based Solution
• 3.5 Renesas
  • 3.5.1 Profile
  • 3.5.2 Revenue
  • 3.5.3 Automotive Electronics Product Layout and Application Fields
  • 3.5.4 ADAS Chip Roadmap
  • 3.5.5 Overview of Intelligent Driving Chip Products
  • 3.5.6 Intelligent Driving Chip Product R-Car V3U (1)
  • 3.5.7 Intelligent Driving Chip Product R-Car V3U (2)
  • 3.5.8 Intelligent Driving Chip Product R-Car V3U (3)
  • 3.5.9 Intelligent Driving Chip Product R-Car V3U (4)
  • 3.5.10 Intelligent Driving Chip Product R-Car V3U (5)
  • 3.5.11 Intelligent Driving Chip Product R-Car V3M (1)
  • 3.5.12 Intelligent Driving Chip Product R-Car V3M (2)
  • 3.5.13 Intelligent Driving Chip Product R-Car V3H (1)
  • 3.5.14 Intelligent Driving Chip Product R-Car V3H (2)
  • 3.5.15 Intelligent Driving Chip Product R-Car V3H (3)
  • 3.5.16 Intelligent Driving Chip Product R-Car V3H (4)
  • 3.5.17 Intelligent Driving Chip Product R-Car V3H (5)
  • 3.5.18 Intelligent Driving Chip Product R-Car V3H (6)
  • 3.5.19 Intelligent Driving Chip Product R-Car V3H Upgraded Version
  • 3.5.20 Intelligent Driving Chip Product R-Car V4H (1)
  • 3.5.21 Intelligent Driving Chip Product R-Car V4H (2)
  • 3.5.22 R-Car Software Development Kit
  • 3.5.23 Cross-platform, Scalable, and Reusable Software Platform
• 3.6 Xilinx (AMD's Embedded Business Unit)
  • 3.6.1 Revenue
  • 3.6.2 Intelligent Driving Product Matrix
  • 3.6.3 Intelligent Driving Chip Product Roadmap
  • 3.6.4 Intelligent Driving Chip Product Details (1)
  • 3.6.5 Intelligent Driving Chip Product Details (2)
  • 3.6.6 Intelligent Driving Chip Product Details (3)
  • 3.6.7 Intelligent Driving Chip Product Details (4)
  • 3.6.8 Intelligent Driving Chip Product Details (5)
• 3.7 Horizon Robotics
  • 3.7.1 Profile
  • 3.7.2 Revenue
  • 3.7.3 Core Team Members
  • 3.7.4 Product Matrix
  • 3.7.5 Core Technology - Intelligent Computing Architecture BPU (1)
  • 3.7.6 Core Technology - Intelligent Computing Architecture BPU (2)
  • 3.7.7 Core Technology - Intelligent Computing Architecture BPU (3)
  • 3.7.8 Overview of Intelligent Driving Chip Products (1)
  • 3.7.9 Overview of Intelligent Driving Chip Products (2)
  • 3.7.10 Intelligent Driving Chip Products: J2
  • 3.7.11 Intelligent Driving Chip Products: J3 (1)
  • 3.7.12 Intelligent Driving Chip Products: J3 (2)
  • 3.7.13 Intelligent Driving Chip Products: J3 (3)
  • 3.7.14 Intelligent Driving Chip Products: J3 (4)
  • 3.7.15 Intelligent Driving Chip Products: J5 (1)
  • 3.7.16 Intelligent Driving Chip Products: J5 (2)
  • 3.7.17 Intelligent Driving Chip Products: J5 (3)
  • 3.7.18 Intelligent Driving Chip Products: J5 (4)
  • 3.7.19 Intelligent Driving Chip Products: J5 (5)
  • 3.7.20 Intelligent Driving Chip Products: J5 (6)
  • 3.7.21 Intelligent Driving Chip Products: J6 (1)
  • 3.7.22 Intelligent Driving Chip Products: J6 (2)
  • 3.7.23 Intelligent Driving Chip Products: J6 (3)
  • 3.7.24 Intelligent Driving Chip Products: J6 (4)
  • 3.7.25 Software and Toolchain
• 3.8 NXP
  • 3.8.1 Profile
  • 3.8.2 Revenue
  • 3.8.3 R&D layout in China
  • 3.8.4 ADAS/AD Product Matrix
  • 3.8.5 S32 Automotive Chip Development Platform
  • 3.8.6 Intelligent Driving Chip Products (1)
  • 3.8.7 Intelligent Driving Chip Products (2)
  • 3.8.8 Intelligent Driving Chip Products (3)
• 3.9 Texas Instruments
  • 3.9.1 Revenue
  • 3.9.2 Automotive Chip Products: TDA4 Family (1)
  • 3.9.3 Automotive Chip Products: TDA4 Family (2)
  • 3.9.4 Automotive Chip Products: TDA4 Family (3)
  • 3.9.5 Automotive Chip Products: TDA4 Family (4)
  • 3.9.6 Automotive Chip Products: TDA4 Family (5)
  • 3.9.7 Automotive Chip Products: TDA4 Family (6)
  • 3.9.8 Overview of Intelligent Driving Chip Products
  • 3.9.9 Intelligent Driving Chip Products: TDA4VL (1)
  • 3.9.10 Intelligent Driving Chip Products: TDA4VL (2)
  • 3.9.11 Intelligent Driving Chip Products: TDA4VL (3)
  • 3.9.12 Intelligent Driving Chip Products: TDA4VM (1)
  • 3.9.13 Intelligent Driving Chip Products: TDA4VM (2)
  • 3.9.14 Intelligent Driving Chip Products: TDA4VM (3)
  • 3.9.15 Intelligent Driving Chip Products: TDA4VM (4)
  • 3.9.16 Intelligent Driving Chip Products: TDA4VH (1)
  • 3.9.17 Intelligent Driving Chip Products: TDA4VH (2)
• 3.10 AXERA
  • 3.10.1 Profile
  • 3.10.2 Intelligent Driving Chip Product Roadmap
  • 3.10.3 Overview of Intelligent Driving Chip Products
  • 3.10.4 Intelligent Driving Chip Product Details (1)
  • 3.10.5 Intelligent Driving Chip Product Details (2)
  • 3.10.6 Intelligent Driving Chip Product Details (3)
  • 3.10.7 Intelligent Driving Chip Product Details (4)
  • 3.10.8 Autonomous Driving Engineering Platform
  • 3.10.9 Core Technology - AXNeutron Mixed Precision NPU
• 3.11 Ambarella
  • 3.11.1 Profile
  • 3.11.2 Revenue
  • 3.11.3 Global Business Layout
  • 3.11.4 Automotive Product Portfolio (1)
  • 3.11.5 Automotive Product Portfolio (2)
  • 3.11.6 Intelligent Driving Chip Product Evolution Path (1)
  • 3.11.7 Intelligent Driving Chip Product Evolution Roadmap (2)
  • 3.11.8 Overview of Intelligent Driving Chips
  • 3.11.9 Intelligent Driving Chip Products CV2 Series (1)
  • 3.11.10 Intelligent Driving Chip Products CV2 Series (2)
  • 3.11.11 Intelligent Driving Chip Products CV2 Series (3)
  • 3.11.12 Intelligent Driving Chip Products CV2 Series (4)
  • 3.11.13 Intelligent Driving Chip Products CV2 Series (5)
  • 3.11.14 Intelligent Driving Chip Products CV2 Series (6)
  • 3.11.15 Intelligent Driving Chip Products CV5 Series
  • 3.11.16 Intelligent Driving Chip Products CV3 Series (1)
  • 3.11.17 Intelligent Driving Chip Products CV3 Series (2)
  • 3.11.18 Intelligent Driving Chip Products CV3 Series (3)
  • 3.11.19 Intelligent Driving Chip Products CV3 Series (4)
  • 3.11.20 Intelligent Driving Chip Products CV3 Series (5)
  • 3.11.21 Intelligent Driving Chip Products CV3 Series (6)
  • 3.11.22 Intelligent Driving Chip Products CV3 Series (7)
  • 3.11.23 Intelligent Driving Chip Products CV3 Series (8)
  • 3.11.24 Intelligent Driving Chip Products CV7 Series (1)
  • 3.11.25 Intelligent Driving Chip Products CV7 Series (2)
  • 3.11.26 Intelligent Driving Chip Products CV7 Series (3)
  • 3.11.27 Intelligent Driving Chip Products CV7 Series (4)
  • 3.11.28 Technology and Product Strategy: Prioritizing Visual Strategy Solutions
  • 3.11.29 Software Development Kit
  • 3.11.30 Toolchain
  • 3.11.31 Automotive Market Ecosystem Layout
  • 3.11.32 Automotive Software Partners