Texas Instruments (TI) has introduced new automotive semiconductors and development resources to enhance safety and autonomy across vehicle models. TI’s scalable TDA5 high-performance computing system-on-a-chip (SoC) family offers power- and safety-optimised processing and edge artificial intelligence (AI) that supports up to Society of Automotive Engineers Level 3 vehicle autonomy. TI also unveiled the AWR2188, a single-chip, eight-by-eight 4D imaging radar transceiver, to help engineers simplify high-resolution radar systems. These devices, alongside the DP83TD555J-Q1 10BASE-T1S Ethernet physical layer (PHY), join TI’s broader automotive portfolio for next-generation advanced driver assistance systems (ADAS) and software-defined vehicles (SDVs). TI will be debuting these products at CES 2026, Jan. 6-9, in Las Vegas, Nevada.
“The automotive industry is moving toward a future where driving doesn’t require hands on the wheel,” said Mark Ng, director of automotive systems at TI. “Semiconductors are at the heart of bringing this vision of safer, smarter and more autonomous driving experiences to every vehicle. From detection and communication to decision-making, engineers can use TI’s end-to-end system offering to innovate what’s next in automotive.”
High-performance compute SoCs enable safe, scalable AI across vehicle models
To enhance safety and autonomy in next-generation vehicles, automakers are adopting central computing systems that support AI and sensor fusion for real-time decision-making. Designed for high-performance computing, TI’s TDA5 SoC family offers edge AI acceleration from 10 trillion operations per second (TOPS) to 1200 TOPS with power efficiency beyond 24 TOPS/W. This scalability, enabled by their chiplet-ready design with Universal Chiplet Interconnect Express interface technology, allows designers to implement different feature sets and support up to Level 3 autonomous driving using a single portfolio. Building on over two decades of experience in automotive processing, the family expands the performance of TI’s existing portfolio to enable automakers to centralise their computing architectures and process advanced AI models.
By integrating the latest generation of TI’s C7 neural processing unit (NPU), TDA5 SoCs provide up to 12 times the AI computing of previous generations with similar power consumption, eliminating the need for costly thermal solutions. This performance supports billions of parameters within language models and transformer networks, increasing in-vehicle intelligence while maintaining cross-domain functionality. The family features the latest Arm Cortex-A720AE cores, allowing automakers to integrate more safety, security and computing applications.
TDA5 SoCs reduce system complexity and costs by supporting cross-domain fusion of ADAS, in-vehicle infotainment and gateway systems within a single chip. Their safety-first architecture further simplifies systems by helping automakers meet Automotive Safety Integrity Level D safety standards without external components.
To simplify complex vehicle software management, TI is partnering with Synopsys to provide a Virtualiser development kit for TDA5 SoCs. The kit’s digital twin capabilities help engineers accelerate time-to-market for their SDVs by up to 12 months.
Single-chip, eight-by-eight radar transceiver achieves earlier, more accurate detection
With enhanced perception and reliability in any weather condition, radar is a fundamental technology for sophisticated ADAS and greater vehicle autonomy. Designed to meet global market needs, TI’s AWR2188 4D imaging radar transceiver integrates eight transmitters and eight receivers into a single launch-on-package chip. This integration simplifies higher-resolution radar systems because eight-by-eight configurations do not require cascading, while scaling up to higher channel counts requires fewer devices. The transceiver supports both satellite and edge architectures, offering automakers the flexibility to simplify and accelerate the global deployment of ADAS features across entry-level to premium vehicles.
The AWR2188 features enhanced analogue-to-digital converter data processing and a radar chirp signal slope engine, both supporting 30% faster performance than currently available solutions. This level of performance powers advanced radar use cases such as detecting lost cargo, distinguishing between closely positioned vehicles and identifying objects in high-dynamic-range scenarios. The transceiver can detect objects with greater accuracy at distances >350m, altogether enabling safer, more autonomous driving.
10BASE-T1S technology extends Ethernet to vehicle edge nodes
The acceleration toward SDVs and higher levels of autonomy is prompting a fundamental shift in subsystem architectures. Ethernet is an important enabler for this evolution, as it allows systems to collect and transmit more data across vehicle zones in real time through a simple, unified network architecture. TI’s new DP83TD555J-Q1 10BASE-T1S Ethernet Serial Peripheral Interface PHY with an integrated media access controller offers nanosecond time synchronisation, industry-leading reliability and Power over Data Line capabilities. These features enable engineers to extend high-performance Ethernet to vehicle edge nodes while reducing cable design complexity and costs.
With TI’s end-to-end system offering, which includes technologies for advanced sensing, reliable in-vehicle networking and efficient AI processing, automakers can develop systems that improve safety and automation levels across different vehicle models.
TI at CES 2026
In the Las Vegas Convention Centre North Hall, meeting room No. N115, TI will showcase how innovation across its analogue and embedded processing portfolios is reshaping what’s next in how people move, live and work. Demonstrations include advancements in vehicle technology and advanced mobility, smart homes and digital health, energy infrastructure, robotics, and data centres. See ti.com/CES.
Package, availability and pricing
- The TDA54 software development kit is now available on TI.com to help engineers get started with the TDA54 Virtualiser development kit. Samples of the TDA54-Q1 SoC, the first device in the family, will be sampled to select automotive customers by the end of 2026.
- Preproduction quantities of the AWR2188 transceiver and an evaluation module are now available upon request at TI.com.
- Preproduction quantities of the DP83TD555J-Q1 10BASE-T1S Ethernet PHY and an evaluation module are now available upon request at TI.com.
