Product details

DSP 1 C66x DSP MHz (Max) 745, 500, 355 Operating system Linux, Android, RTOS Security Debug security, Device identity, Isolation firewalls, Secure boot & storage & programming, Software IP protection Ethernet MAC 2-port 1Gb switch TI functional safety category Functional Safety-Compliant Rating Automotive Operating temperature range (C) -40 to 125
DSP 1 C66x DSP MHz (Max) 745, 500, 355 Operating system Linux, Android, RTOS Security Debug security, Device identity, Isolation firewalls, Secure boot & storage & programming, Software IP protection Ethernet MAC 2-port 1Gb switch TI functional safety category Functional Safety-Compliant Rating Automotive Operating temperature range (C) -40 to 125
  • Architecture designed for ADAS applications
  • Video and image processing support
    • Full-HD video (1920 × 1080p, 60 fps)
    • Video input and video output
  • Up to 2 C66x floating-point VLIW DSP
    • Fully object-code compatible with C67x and C64x+
    • Up to thirty-two 16 × 16-bit fixed-point multiplies per cycle
  • Up to 512kB of on-chip L3 RAM
  • Level 3 (L3) and Level 4 (L4) interconnects
  • Memory Interface (EMIF) module
    • Supports DDR3/DDR3L up to DDR-1066
    • Supports DDR2 up to DDR-800
    • Supports LPDDR2 up to DDR-667
    • Up to 2GB supported
  • Dual Arm® Cortex®-M4 Image Processor Unit (IPU)
  • Vision accelerationPac
    • Embedded Vision Engine (EVE)
  • Display subsystem
    • Display controller with DMA engine
    • CVIDEO / SD-DAC TV analog composite output
  • Video Input Port (VIP) module
    • Support for up to 4 multiplexed input ports
  • On-chip temperature sensor that is capable of generating temperature alerts
  • General-Purpose Memory Controller (GPMC)
  • Enhanced Direct Memory Access (EDMA) controller
  • 3-port (2 external) Gigabit Ethernet (GMAC) switch
  • Controller Area Network (DCAN) module
    • CAN 2.0B protocol
  • Modular Controller Area Network (MCAN) module
    • CAN 2.0B protocol
  • Eight 32-bit general-purpose timers
  • Three configurable UART modules
  • Four Multichannel Serial Peripheral Interfaces (McSPI)
  • Quad SPI interface
  • Two Inter-Integrated Circuit (I2C™) ports
  • Three Multichannel Audio Serial Port (McASP) modules
  • Secure Digital Input Output Interface (SDIO)
  • Up to 126 General-Purpose I/O (GPIO) pins
  • Power, reset, and clock management
  • On-chip debug with CTools technology
  • Automotive AEC-Q100 qualified
  • 15 × 15 mm, 0.65-mm pitch, 367-pin PBGA (ABF)
  • Seven Dual Clock Comparators (DCC)
  • Memory Cyclic Redundancy Check (CRC)
  • TESOC (LBIST/PBIST) that enables field testing of logic and on-chip memory
  • Error Signaling Module (ESM)
  • Five instances of Real-Time Interrupt (RTI) modules that can be used as watch dog timers
  • 8-channel 10-bit ADC
  • MIPI® Camera Serial Interface 2 (CSI-2)
  • PWMSS
  • Full HW image pipe: DPC, CFA, 3D-NF, RGB-YUV
    • WDR, HW LDC and perspective
  • Architecture designed for ADAS applications
  • Video and image processing support
    • Full-HD video (1920 × 1080p, 60 fps)
    • Video input and video output
  • Up to 2 C66x floating-point VLIW DSP
    • Fully object-code compatible with C67x and C64x+
    • Up to thirty-two 16 × 16-bit fixed-point multiplies per cycle
  • Up to 512kB of on-chip L3 RAM
  • Level 3 (L3) and Level 4 (L4) interconnects
  • Memory Interface (EMIF) module
    • Supports DDR3/DDR3L up to DDR-1066
    • Supports DDR2 up to DDR-800
    • Supports LPDDR2 up to DDR-667
    • Up to 2GB supported
  • Dual Arm® Cortex®-M4 Image Processor Unit (IPU)
  • Vision accelerationPac
    • Embedded Vision Engine (EVE)
  • Display subsystem
    • Display controller with DMA engine
    • CVIDEO / SD-DAC TV analog composite output
  • Video Input Port (VIP) module
    • Support for up to 4 multiplexed input ports
  • On-chip temperature sensor that is capable of generating temperature alerts
  • General-Purpose Memory Controller (GPMC)
  • Enhanced Direct Memory Access (EDMA) controller
  • 3-port (2 external) Gigabit Ethernet (GMAC) switch
  • Controller Area Network (DCAN) module
    • CAN 2.0B protocol
  • Modular Controller Area Network (MCAN) module
    • CAN 2.0B protocol
  • Eight 32-bit general-purpose timers
  • Three configurable UART modules
  • Four Multichannel Serial Peripheral Interfaces (McSPI)
  • Quad SPI interface
  • Two Inter-Integrated Circuit (I2C™) ports
  • Three Multichannel Audio Serial Port (McASP) modules
  • Secure Digital Input Output Interface (SDIO)
  • Up to 126 General-Purpose I/O (GPIO) pins
  • Power, reset, and clock management
  • On-chip debug with CTools technology
  • Automotive AEC-Q100 qualified
  • 15 × 15 mm, 0.65-mm pitch, 367-pin PBGA (ABF)
  • Seven Dual Clock Comparators (DCC)
  • Memory Cyclic Redundancy Check (CRC)
  • TESOC (LBIST/PBIST) that enables field testing of logic and on-chip memory
  • Error Signaling Module (ESM)
  • Five instances of Real-Time Interrupt (RTI) modules that can be used as watch dog timers
  • 8-channel 10-bit ADC
  • MIPI® Camera Serial Interface 2 (CSI-2)
  • PWMSS
  • Full HW image pipe: DPC, CFA, 3D-NF, RGB-YUV
    • WDR, HW LDC and perspective

TI’s TDA3x System-on-Chip (SoC) is a highly optimized and scalable family of devices designed to meet the requirements of leading Advanced Driver Assistance Systems (ADAS). The TDA3x family enables broad ADAS applications in automobiles by integrating an optimal mix of performance, low power, smaller form factor and ADAS vision analytics processing that aims to facilitate a more autonomous and collision-free driving experience.

The TDA3x SoC enables sophisticated embedded vision technology in today’s automobile by enabling the industry’s broadest range of ADAS applications including front camera, rear camera, surround view, radar, and fusion on a single architecture.

The TDA3x SoC incorporates a heterogeneous, scalable architecture that includes a mix of Texas Instruments (TI)’s fixed and floating-point TMS320C66x digital signal processor (DSP) generation cores, Vision AccelerationPac (EVE), and dual-Cortex-M4 processors. The device allows low power profile in different package options (including Package-On-Package) to enable small form factor designs. TDA3x SoC also integrates a host of peripherals including multi-camera interfaces (both parallel and serial) for LVDS-based surround view systems, displays, CAN and GigB Ethernet AVB.

The Vision AccelerationPac for this family of products includes embedded vision engine (EVE) offloading the vision analytics functionality from the application processor while also reducing the power footprint. The Vision AccelerationPac is optimized for vision processing with a 32-bit RISC core for efficient program execution and a vector coprocessor for specialized vision processing.

Additionally, TI provides a complete set of development tools for the Arm, DSP, and EVE coprocessor, including C compilers, a DSP assembly optimizer to simplify programming and scheduling, and a debugging interface for visibility into source code execution.

The TDA3x ADAS processor is qualified according to AEC-Q100 standard.

TI’s TDA3x System-on-Chip (SoC) is a highly optimized and scalable family of devices designed to meet the requirements of leading Advanced Driver Assistance Systems (ADAS). The TDA3x family enables broad ADAS applications in automobiles by integrating an optimal mix of performance, low power, smaller form factor and ADAS vision analytics processing that aims to facilitate a more autonomous and collision-free driving experience.

The TDA3x SoC enables sophisticated embedded vision technology in today’s automobile by enabling the industry’s broadest range of ADAS applications including front camera, rear camera, surround view, radar, and fusion on a single architecture.

The TDA3x SoC incorporates a heterogeneous, scalable architecture that includes a mix of Texas Instruments (TI)’s fixed and floating-point TMS320C66x digital signal processor (DSP) generation cores, Vision AccelerationPac (EVE), and dual-Cortex-M4 processors. The device allows low power profile in different package options (including Package-On-Package) to enable small form factor designs. TDA3x SoC also integrates a host of peripherals including multi-camera interfaces (both parallel and serial) for LVDS-based surround view systems, displays, CAN and GigB Ethernet AVB.

The Vision AccelerationPac for this family of products includes embedded vision engine (EVE) offloading the vision analytics functionality from the application processor while also reducing the power footprint. The Vision AccelerationPac is optimized for vision processing with a 32-bit RISC core for efficient program execution and a vector coprocessor for specialized vision processing.

Additionally, TI provides a complete set of development tools for the Arm, DSP, and EVE coprocessor, including C compilers, a DSP assembly optimizer to simplify programming and scheduling, and a debugging interface for visibility into source code execution.

The TDA3x ADAS processor is qualified according to AEC-Q100 standard.

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More Information

This product family is available for high volume automotive manufacturers. Please contact your TI sales representative for more details.

Learn more about the TDAx SoC for advanced driver assistance systems (ADAS).

Technical documentation

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Type Title Date
* Data sheet TDA3x SoC for Advanced Driver Assistance Systems (ADAS) 15mm Package (ABF) Silicon Revision 2.0 datasheet (Rev. H) 04 Feb 2020
* Errata TDA3x SoC for Advanced Driver Assistance Systems (ADAS) (SR 1.0, 1.0A) (Rev. F) 01 Oct 2019
White paper Stereo vision- facing the challenges and seeing the opportunities for ADAS (Rev. A) 24 Jul 2020
Application note AM57x, DRA7x, and TDA2x EMIF Tools (Rev. E) 06 Jan 2020
User guide TDA3x Technical Reference Manual (Rev. D) 29 Jul 2019
Application note TDA2x/TDA2E Performance (Rev. A) 10 Jun 2019
Technical article Bringing the next evolution of machine learning to the edge 27 Nov 2018
Application note TDA3xx Tester On Chip (TESOC) (Rev. A) 19 Oct 2018
Technical article How quality assurance on the Processor SDK can improve software scalability 22 Aug 2018
Application note ECC/EDC on TDAxx (Rev. B) 13 Jun 2018
Application note TMS320C66x XMC Memory Protection 31 Jan 2018
Application note DSS Bit Exact Output (Rev. A) 12 Jan 2018
Application note Flashing Utility - mflash 09 Jan 2018
White paper Embedded low-power deep learning with TIDL 08 Dec 2017
Application note Dynamic Backup Lines 14 Nov 2017
Application note Optimizing DRA7xx and TDA2xx Processors for use with Video Display SERDES (Rev. B) 07 Nov 2017
Application note A Guide to Debugging With CCS on the DRA75x, DRA74x, TDA2x and TDA3x Family of D (Rev. B) 03 Nov 2017
Application note DSS BT656 Workaround for TDA2x (Rev. A) 03 Nov 2017
Application note Safety Features on VisionSDK 26 Oct 2017
Application note IISS Image Pipe for Alternate CFA Formats 16 Aug 2017
Application note Quality of Service (QoS) Knobs for DRA74x, DRA75x & TDA2x Family of Devices (Rev. A) 15 Dec 2016
Application note Quad Channel Camera Application for Surround View and CMS Camera Systems (Rev. A) 23 Aug 2016
Technical article Clove: Low-Power video solutions based on Sitara™ AM57x processors 21 Jul 2016
Application note ADC as Voltage Monitoring in TDA3x 20 Jun 2016
Application note TDA3xx ISS Tuning and Debug Infrastructure 02 Jun 2016
Application note ADAS Power Management 07 Mar 2016
White paper Multicore SoCs stay a step ahead of SoC FPGAs 23 Feb 2016
Technical article TI's new DSP Benchmark Site 08 Feb 2016
Application note TDA3x Error Signaling Module (ESM) 26 Jan 2016
White paper Surround view camera systems for ADAS (Rev. A) 20 Oct 2015
Application note Guide to fix Perf Issues Using QoS Knobs for DRA74x, DRA75x, TDA2x & TD3x Device 13 Aug 2014
White paper TI Vision SDK, Optimized Vision Libraries for ADAS Systems 14 Apr 2014
White paper TI Gives Sight to Vision-Enabled Automotive Technologies 16 Oct 2013
White paper Empowering Automotive Vision with TI’s Vision AccelerationPac 13 Oct 2013

Design & development

For additional terms or required resources, click any title below to view the detail page where available.

Evaluation board

D3-3P-ADAS-DK — D3 ADAS Development Kit

This fully functioning evaluation system speeds on-vehicle testing and development of multi-camera, real-time vision applications requiring intensive video analytics. It shortens development time of vision-based systems for automotive, transportation, and materials handling applications.The ADAS (...)
From: D3 Engineering
Evaluation board

TDA3XEVM — TDA3X Evaluation Module

The TDA3x evaluation module (EVM) is an evaluation platform designed to speed up development efforts and reduce time-to-market for ADAS applications. The EVM is based on the TDA3x SoC, which incorporates a heterogeneous, scalable architecture that includes a mixture of the following:

  • TI’s fixed (...)
From: SVTRONICS INC
Development kit

D3-3P-TDA3X-SK — D3 DesignCore TDA3x Automotive Starter Kit

This benchtop starter kit lets you evaluate embedded ADAS technology on an electronic platform designed with production in mind. Based on the Texas Instruments TDA3x advanced vision processor, it enables synchronous acquisition of four FPD-Link III HD data streams (video, radar, lidar, etc.) for (...)
From: D3 Engineering
Development kit

D3-3P-TDAX-DK — D3 Engineering RVP-TDAx development kits

These rugged development kits are in a finalized product form-factor that lets you evaluate TI ADAS technology under realistic on-vehicle conditions. Accelerate development of autonomous vision-based navigation systems for automotive, transportation and materials handling applications. The (...)
From: D3 Engineering
Software development kit (SDK)

PROCESSOR-SDK-TDAX — Processor SDK for TDAx ADAS SoCs - Linux and TI-RTOS Support

Processor SDK-Vision (Vision SDK) and Processor SDK-Radar (Radar SDK) are multi-processor software development kits for TDAx processors. The software framework allows users to create different ADAS application data flows involving radar capture, radar processing, video capture, video pre-processing (...)
Operating system (OS)

QNX-3P-NEUTRINO-RTOS — QNX Neutrino RTOS

The QNX Neutrino® Realtime Operating System (RTOS) is a full-featured and robust RTOS designed to enable the next-generation of products for automotive, medical, transportation, military and industrial embedded systems. Microkernel design and modular architecture enable customers to create (...)
From: QNX Software Systems
Support software

SV-3P-ADAS_ALGORITHMS — StradVision SVNet - TDAx-based deep learning and camera based perception software

StradVision enables deep learning-based embedded perception algorithms on TDAx for Advanced Driver Assistance Systems (ADAS) and automated driving features. SVNet's lean and light characteristics enable more headroom for mutiple simultaneous functions, swift development and optimization, and (...)
From: Stradvision
Simulation model

TDA3x Thermal Model

SPRM701.ZIP (1 KB) - Thermal Model
Simulation model

TDA3x IBIS Model

SPRM702.ZIP (10940 KB) - IBIS Model
Simulation model

TDA3x BSDL Model

SPRM714.ZIP (9 KB) - BSDL Model
Calculation tool

CLOCKTREETOOL — Clock Tree Tool for Sitara, Automotive, Vision Analytics, & Digital Signal Processors

The Clock Tree Tool (CTT) for Sitara™ ARM®, Automotive, and Digital Signal Processors is an interactive clock tree configuration software that provides information about the clocks and modules in these TI devices. It allows the user to:
  • Visualize the device clock tree
  • Interact with clock tree elements (...)
Design tool

PROCESSORS-3P-SEARCH — Arm-based MPU, arm-based MCU and DSP third-party search tool

TI has partnered with companies to offer a wide range of software, tools, and SOMs using TI processors to accelerate your path to production. Download this search tool to quickly browse our third-party solutions and find the right third-party to meet your needs. The software, tools and modules (...)
Package Pins Download
FCBGA (ABF) 367 View options

Ordering & quality

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  • Material content
  • Qualification summary
  • Ongoing reliability monitoring

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