Automotive driver assist SoCs
Safe, scalable, efficient AI for entry to premium driving solutions
Browse by category
Find your SoC based on your application
In-cabin systems
In cabin domains are demanding to be smarter with new regulations to monitor occupants and bring vital details to the cluster displays. Our family meets the demand of these feature rich systems.
ADAS/AD automotive camera
Advanced Driver-Assistance System (ADAS) for parking and driving solutions enabling software defined vehicles(SDV) in domain and zonal systems. Our family meets the demand for this rapid growing trend
High-performance compute
Our family enables the next generation, as vehicles reach unprecendented numbers of sensors, driving the need for high-performance compute SoC to interpret data and make split second driving decisions
Automotive driver assist SoCs design & development
Accelerate your next embedded innovation with our extensive ecosystem and easy-to-use hardware and software tools.
Software
Shift Left your design timeline by choosing the right software development kit (SDK) combination for your next heterogeneous multi-core design.
Hardware
Explore our broad portfolio of starter kits, modules, and EVMs and move from prototype to production in no time.
TI Developer Zone
Access and download all the development tools, software, and training you need to easily develop, debug, and analyze code in the cloud or on your desktop.
Educational resources
Get started with processor academies to access guided examples, demos, step by step tutorials and video training.
Partners
Our curated partner ecosystem is a worldwide community of hardware, software, tools and training experts to help you complete your Arm® based processor designs.
Discover featured applications
Enable software-defined vehicles with our technology for advanced compute, analytics, optimized in-vehicle networking, intelligent load actuation, and smart power distribution.
The automotive industry is undergoing a software-centric transformation. With the vision towards a software-defined vehicle (SDV), automakers are redefining the vehicle’s architecture and shifting from domain to zone architectures, to provide more personalization, better in-vehicle experience and the next level of convenience, enabled by over-the-air updates.
Benefits:
- Common scalable processor architecture for entry to high-end performance SDV systems.
- Production quality drivers, MCAL with functional safety qualification, OS support (FreeRTOS™, Linux®) to enable customers to reach production
Featured resources
Build next-generation ADAS and autonomous driving systems using high-performance physical AI, functional safety to ensure safe operation of the vehicle.
Our scalable family of high-performance TDAx SoC family features industry leading AI performance (TOPS/Watts), hardware accelerated image processing, vision and radar sensor fusion, and functional safety concepts to keep everyone safe. Comprehensive, open source software pairs with our family of SoC's to accelerate design timeline and faster time to market.
Fundamental features for ADAS designs:
- High performance 64-Bit Application compute cores
- Hardware accelerators for efficient DSP-based AI and processing
- Functional Safety-Compliant SoC architecture including ASIL D capable safety MCU
Featured resources
- TDA4VH-Q1 – SoC with Octal Arm® Cortex®-A72, 32 TOPS of AI, C7xDSP, and GPU for vision perception and analytics
- TDA4VE-Q1 – SoC with Dual Arm® Cortex®-A72, 8 TOPS of AI, C7xDSP, and GPU for vision perception and analytics
- AM62A7-Q1 – 2 TOPS vision SoC with RGB-IR ISP for 1-2 cameras, driver monitoring, front cameras
- Leverage Jacinto 7 Processors Functional Safety Features for Automotive Designs (Rev. A) – Functional safety information
- A 360-degree view of surround-view and automated parking systems – White paper
Driving the in-vehicle experience forward with feature rich SoC.
The market for in-cabin sensing systems is growing rapidly due to new regulations and car assessment programs to advance passenger and vehicle safety. We help you to design enhanced systems for in-cabin monitoring and infotainment with our extensive porfolio of SoCs.
Benefits:
- Common scalable processor portfolio for every type of in-cabin application.
- Provide intelligent features such as facial recognition along with multiple automotive interfaces.
- Focus on innovation and fast development with Linux® and Android™ SDKs.
Featured resources
- TDA4VEN-Q1 – SoC with Quad Arm® Cortex®-A53, 4 TOPS of AI, C7xDSP, and GPU for vision perception and analytics
- AM62P-Q1 – Automotive display SoC with advanced 3D graphics, 4K video codec and embedded safety