Processors
Arm®-based application processors and digital signal processors for efficient edge computing
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Internet of Things (IoT) and gateway SoC with Arm® Cortex®-A53-based object and gesture recognition
Human-machine-interaction SoC with Arm® Cortex®-A53-based edge AI and full-HD dual display
Dual Arm® Cortex-A72, quad Cortex-R5F, 8-port Ethernet and 4-port PCIe switches
Dual Arm Cortex-A72, quad Cortex-R5F, multi-core DSP, 8-port Ethernet switch, and 4-port PCIe switch
Dual Arm Cortex-A72, quad Cortex-R5F, multi-core DSP, 8-port Ethernet and 4-port PCIe switches
Why choose TI processors?
Single, scalable platform
Our unified, open-source development platform lets you reuse code across projects so you can quickly and easily scale your designs.
Broad performance
Our processors offer a broad range of performance and cutting-edge technologies so you can innovate for years to come.
Quality, reliability & longevity
Our portfolio supports long product life cycles, 100K power-on-hours, high-temp up to 125 C, automotive certifications and more.
Industry-leading support
We use open-source software and provide design support and training online at no cost so you can get your products to market fast.
Explore integrated processor technologies
Bring smart cameras, robots and intelligent machines to life.
From single-camera quality inspection systems to multi-camera advanced driver assistance systems, our high-performance computer vision, sensor fusion and AI technologies enable human-like intelligence and robust safety in automated systems and autonomous machines.
- Delivers high performance without compromising system power, size, weight and cost.
- Enables fast development cycles and automatic hardware acceleration with open-source APIs.
Designing an Efficient Edge AI System with Highly Integrated Processors
Innovate faster with the TI Edge AI toolchain
Get started with a 8 TOPS edge AI starter kit
Real-time communication for factories, smart buildings and automotive gateways.
Our flexible and efficient networking solutions support a wide range of industrial and automotive communication standards, including serial interfaces, industrial Ethernet, and next-generation technologies such as time-sensitive networking (TSN) and single-pair Ethernet—all with a single chip.
- Single-chip, multi-protocol industrial Ethernet.
- Gigabit TSN-enabled devices.
- Integrated PCIe hub and Ethernet switch.
Simplify real-time control and industrial communication with a single chip
Evolving automotive gateways for next-generation vehicles (Rev. B)
Time sensitive networking for industrial automation (Rev. B)
Featured products for Networking
Streamline your functional safety design
From factory automation and control systems to advanced driver assistance systems, our Functional Safety-Compliant processors include features such as isolated MCUs for safety functions up to ASIL-D, memory protection units, temperature monitoring sensors and multi-channel ADC for system monitoring.
- Made for ASIL-B to ASIL-D and SIL-2 to SIL-3 requirements.
- Features on-chip safety diagnostics.
- Built using TÜV SÜD-certified functional safety development processes.
Leverage Jacinto 7 Processors Functional Safety Features for Automotive Designs (Rev. A)
The state of functional safety in Industry 4.0
Streamlining Functional Safety Certification in Automotive and Industrial
Discover featured applications
Build next-generation ADAS and Autonomous Driving systems using high-performance vision processing, sensor fusion and deep learning.
Our scalable family of high-performance TDA4x processors feature industry-leading deep learning (TOPS/watts), hardware-accelerated image processing, vision and radar sensor fusion, and comprehensive hardware and software solutions for functional safety.
Fundamental features for ADAS designs:
- High-performance 64-Bit Arm® Cortex®-A72 compute cores
- Efficient DSP-based deep-learning
- Dedicated hardware accelerators for image processing
- GPU for advanced visualization
- Security accelerator cores
- Functional Safety-Compliant SoC architecture including ASIL-D capable safety MCU
Featured resources
- TDA4VM-Q1 – Next generation SoC family for L2/L3, near-field analytic systems using deep learning technologies
Create multi-sensor, AI-powered autonomous mobile robots built for functional safety using TDA4x application processors.
Designed for functional safety and multi-sensor AI, TDA4x processors let you build energy efficient and affordable robots that can collaborate with humans- in homes, cities and factories- all with a single chip solution.
- Enhanced safety- Our hardware and software solutions support up to SIL-3 and ASIL-D designs.
- Energy efficiency- Our computer vision and deep learning accelerators deliver industry-leading performance at low power. Open-source software and tools let you design faster.
- Affordable design- High levels of integration in a single chip lets you reduce system complexity and cost.
Featured resources
- SK-TDA4VM – TDA4VM processor starter kit for Edge AI vision systems
Design advanced in-vehicle networks using DRA8x processors to enable high-performance computing, secure networking and connected mobility.
Our scalable family of high-performance DRA8x processors feature high levels of integration that reduce system complexity and cost, while common development software lets you seamlessly migrate code across DRA8x-based projects, extending your software investment.
Fundamental features for in-vehicle gateways and TCU designs:
- High-performance 64-Bit Arm® Cortex®-A72 compute cores
- Diverse I/O to connect to legacy and high-speed networks such as CAN, LIN, Ethernet, and PCIe.
- ASIL-D rated MCU domain for mixed criticality
- PCIe and Ethernet switches
Featured resources
Achieve multi-axis motor drive control with higher precision and lower latency in a single processing solution.
AM64x is a scalable, pin-to-pin compatible, family of processors that run Linux and have high levels of integration, empowering you to design elegant multi-axis drives using a single chip, while reducing system costs.
- Real-time control: Achieve sub-microsecond field-oriented control loops and drive smoother motion.
- Power efficiency: Create small, fan-less designs with sub-2W power consumption.
- Highly-integrated: Connect multiple motors using on-chip interfaces and pre-certified industrial protocol stacks.
Featured resources
- SK-AM64 – AM64x starter kit for the Sitara™ AM64x processor
- TMDS64GPEVM – AM64x GP EVM development platform for evaluating Sitara AM64x processor
- LP-AM243 – AM243x Arm-based MCU general purpose LaunchPad development kit