Arm-based processors

Application processors with rich peripherals, hardware accelerators, functional safety and security

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Our large portfolio of Arm®-based application processors offers a broad range of efficient edge-computing performance for automotive, industrial and IoT devices. We use a system-on-chip (SoC) architecture that delivers performance without sacrificing critical system resources, such as power, size, weight and cost. Our development platforms, which have hardware, open-source software, and tools, will help you get your products to market fast.

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Find an Arm-based processor that best fits your design needs

Simplify your design & development process

Whether you are working on a simple design or building something complex, our extensive and easy-to-use hardware, software, and tools, and free online access to industry experts will empower you to drive innovation forward.

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AM623 NEW

Internet of Things (IoT) and gateway SoC with Arm® Cortex®-A53-based object and gesture recognition

Approx. price (USD) 1ku | 19.5
AM625 NEW

Human-machine-interaction SoC with Arm® Cortex®-A53-based edge AI and full-HD dual display

Approx. price (USD) 1ku | 19.5
DRA829V-Q1 NEW

Dual Arm® Cortex-A72, quad Cortex-R5F, 8-port Ethernet and 4-port PCIe switches

Approx. price (USD) 1ku | 54.45
DRA829J NEW

Dual Arm Cortex-A72, quad Cortex-R5F, multi-core DSP, 8-port Ethernet switch, and 4-port PCIe switch

Approx. price (USD) 1ku | 54.28
DRA829J-Q1 NEW

Dual Arm Cortex-A72, quad Cortex-R5F, multi-core DSP, 8-port Ethernet and 4-port PCIe switches

Approx. price (USD) 1ku | 68.06
DRA829V NEW

Dual Arm® Cortex®-A72, quad Cortex®-R5F, 8-port Ethernet and 4-port PCIe switches

Approx. price (USD) 1ku | 49.68

Efficient edge computing technologies

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Edge AI

Bring smart cameras, robots and intelligent machines to life with hardware-accelerated computer vision, sensor fusion and deep learning.

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Real-time networking

Advance automation in factories and cars with robust, modern I/O and hard real-time, deterministic communication.

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Functional safety

Streamline your designs with Functional Safety-Compliance processors and software built using TÜV SÜD-certified functional safety developement processes.

Explore our latest processors

Compact. Precise. Connected.

AM6x processors enable real-time computing, flexible networking, and configurable web services in a small power envelope. With a family of pin-to-pin compatible devices, AM6x processors let you design compact, precise and connected edge devices for modern automation and EV charging infrastructure.

  • Arm® Cortex®-A53, Cortex-R5F and Cortex-M4F cores. 
  • Rich peripherals with robust modern I/O, Ethernet switch and TSN.
  • Certified industrial protocol stacks.
Technical article
Simplify real-time control and industrial communication with a single chip
AM64x processors and AM2x MCUs address the computational demands for real-time control, safety and reliability, and multiprotocol industrial communication in a single-chip.
Technical article
Increase productivity with intelligent edge computing
Learn how AM64x processors make edge devices more productive in factories, smart spaces, IoT devices and more.
Resource
Accelerate your next design with a $99 starter kit
SK-AM64 features wired and wireless connectivity, three expansion headers, multiple boot options and flexible debug capabilities.
Featured products for AM64x
AM6442 PREVIEW Dual-core 64-bit Arm® Cortex®-A53, quad-core Cortex-R5F, PCIe, USB 3.0 and security
AM6421 PREVIEW Single-core 64-bit Arm® Cortex®-A53, dual-core Cortex-R5F, PCIe, USB 3.0 and security
AM6411 PREVIEW Single-core 64-bit Arm® Cortex®-A53, single-core Cortex-R5F, PCIe, USB 3.0 and security
High-performance processors for ADAS, robotics and vision systems

TDA4x processors offer hardware-accelerated single-camera, multi-camera, sensor fusion, and AI processing in a low-power SoC architecture with integrated functional safety technology.

  • Arm® Cortex®-A72 and Cortex-R5F cores. 
  • Hardware accelerators for computer vision and AI. 
  • Integrated functional safety and security. 
  • PCIe hub and Ethernet switch.
White paper
Designing an Efficient Edge AI System with Highly Integrated Processors
The innovative SoC architecture of TDA4x processors enables high-speed analytics and AI without sacrificing system power and cost.
document-pdfAcrobat PDF
White paper
Leverage Jacinto 7 Processors Functional Safety Features for Automotive Designs (Rev. A)
Comprehensive hardware and software features help you meet your functional safety goals and certification requirements while also reducing system complexity and costs.
document-pdfAcrobat PDF
Resource
Evaluate TDA4x processors now—at no cost
Evaluate the deep learning performance and software development environment for TDA4x processors using TI Edge AI Cloud.
Featured products for TDA4x
TDA4VM-Q1 ACTIVE Next generation SoC family for L2/L3, near-field analytic systems using deep learning technologies
NEW TDA4VM ACTIVE Dual Arm® Cortex®-A72, C7x DSP, and deep learning, vision and multimedia accelerators
Tailor-made processors for automotive gateway systems

DRA8x processors have an optimal mix of features that let you safely and securely move data through central, domain and zonal gateways to support ADAS, vehicle electrification, cloud-based services, and more.

  • Arm® Cortex®-A72 and Cortex-R5F. 
  • Gb TSN-enabled Ethernet switch, PCIe hub, CAN-FD and LIN interfaces. 
  • Device-level certification up to ASIL-B; component-level up to ASIL-D.
Technical article
Tailor-made gateway processors lay the groundwork for zone architectures
Find out how DRA8x processors enable next-generation zonal gateways with a rich set of networking interfaces and integrated functional safety features.
White paper
Leverage Jacinto 7 Processors Functional Safety Features for Automotive Designs (Rev. A)
Comprehensive hardware and software features let you meet your functional safety goals and certification requirements while also reducing system bill-of-materials.
document-pdfAcrobat PDF
Resource
Create, manage and deploy cloud services
Watch the training and see how AWS Connected Mobility Solution Framework can enable fleet management and other cloud-based services using DRA8x processors.
Featured products for DRA8x
DRA821U PREVIEW Dual Arm Cortex-A72, quad Cortex-R5F, 4-port Ethernet switch, and a PCIe controller
NEW DRA829V ACTIVE Dual Arm® Cortex®-A72, quad Cortex®-R5F, 8-port Ethernet and 4-port PCIe switches

Discover featured applications

Advanced driver assistance systems
Build next-generation ADAS and Autonomous Driving systems using high-performance vision processing, sensor fusion and deep learning.

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

PRODUCTS
  • TDA4VM-Q1 – Next generation SoC family for L2/L3, near-field analytic systems using deep learning technologies
Autonomous mobile robots
Create multi-sensor, AI-powered autonomous mobile robots built for functional safety using TDA4x application processors.

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

PRODUCTS
  • TDA4VM-Q1 – Next generation SoC family for L2/L3, near-field analytic systems using deep learning technologies
  • TDA4VM – Dual Arm® Cortex®-A72, C7x DSP, and deep learning, vision and multimedia accelerators
HARDWARE DEVELOPMENT
  • SK-TDA4VM – TDA4VM processor starter kit for Edge AI vision systems
Additional development resources
Automotive gateway
Design advanced in-vehicle networks using DRA8x processors to enable high-performance computing, secure networking and connected mobility.

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

REFERENCE DESIGNS
PRODUCTS
  • DRA821U – Dual Arm Cortex-A72, quad Cortex-R5F, 4-port Ethernet switch, and a PCIe controller
  • DRA829V – Dual Arm® Cortex®-A72, quad Cortex®-R5F, 8-port Ethernet and 4-port PCIe switches
  • DRA829J – Dual Arm Cortex-A72, quad Cortex-R5F, multi-core DSP, 8-port Ethernet switch, and 4-port PCIe switch
Multi-axis motor drives
Achieve multi-axis motor drive control with higher precision and lower latency in a single processing solution.

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

PRODUCTS
  • AM6441 – Single-core 64-bit Arm® Cortex®-A53, quad-core Cortex-R5F, PCIe, USB 3.0 and security
  • AM6421 – Single-core 64-bit Arm® Cortex®-A53, dual-core Cortex-R5F, PCIe, USB 3.0 and security
HARDWARE DEVELOPMENT
  • 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

Technical resources

Video series
Video series
TDA4x & DRA8x software development
Watch on-demand training for TDA4x software develoment. Topics include software architecture, SDK overview, out-of-box demos, and more.
Video series
Video series
AM64x software development
Learn about the AM64x software development overview, Linux boot flow, wired and wireless networking, real-time control, and more.
Resource
Resource
Edge AI Academy
Become an expert in embedded AI development in days. No experience needed. Learn with free cloud tools and low-cost hardware.