DRA829J-Q1

Name: DRA829J-Q1
Brand: TI
SKU: DRA829J-Q1
Price: 78.89 USD

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SoC with Dual Arm® Cortex®-A72, 8 port Ethernet, 4 port PCIe, and C7xDSP for networking and compute

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Data sheet

document-pdfAcrobat DRA829 Processors datasheet (Rev. K) PDF | HTML

User guides

document-pdfAcrobat
J721E DRA829/TDA4VM Processors Silicon Revision 2.0, 1.1 Technical Reference Manual (Rev. D)

Errata

document-pdfAcrobat
J721E DRA829/TDA4VM Processors Silicon Revision 2.0/1.1/1.0 (Rev. F)

DRA829J-Q1

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Data sheet

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Product details

CPU

2 Arm Cortex-A72

Frequency (MHz)

2000

Coprocessors

6 Arm Cortex-R5F

Graphics acceleration

1 3D

Display type

1 DSI, 1 EDP, 2 DPI

Protocols

Ethernet

PCIe

4 PCIe Gen 3 switch

Hardware accelerators

Deep learning accelerator, Video decode accelerator, Video encode accelerator

Features

Networking

Operating system

Linux, QNX, RTOS

Security

Cryptographic acceleration, Device attestation & anti-counterfeit, Hardware-enforced isolation, Secure boot, Secure debug, Secure storage, Software IP protection

Rating

Automotive

Power supply solution

LP8764-Q1, TPS6594-Q1

Operating temperature range (°C)

-40 to 125

Edge AI enabled

CPU

2 Arm Cortex-A72

Frequency (MHz)

2000

Coprocessors

6 Arm Cortex-R5F

Graphics acceleration

1 3D

Display type

1 DSI, 1 EDP, 2 DPI

Protocols

Ethernet

PCIe

4 PCIe Gen 3 switch

Hardware accelerators

Deep learning accelerator, Video decode accelerator, Video encode accelerator

Features

Networking

Operating system

Linux, QNX, RTOS

Security

Cryptographic acceleration, Device attestation & anti-counterfeit, Hardware-enforced isolation, Secure boot, Secure debug, Secure storage, Software IP protection

Rating

Automotive

Power supply solution

LP8764-Q1, TPS6594-Q1

Operating temperature range (°C)

-40 to 125

Edge AI enabled

FCBGA (ALF)

827

576 mm² 24 x 24

Processor cores:

Dual 64-bit Arm Cortex-A72 microprocessor subsystem at up to 2.0GHz
- 1MB shared L2 cache per dual-core Arm Cortex-A72 cluster
- 32KB L1 DCache and 48KB L1 ICache per Cortex-A72 Core
Six Arm Cortex-R5F MCUs at up to 1.0GHz
- 16K I-Cache, 16K D-Cache, 64K L2 TCM
- Two Arm Cortex-R5F MCUs in isolated MCU subsystem
- Four Arm Cortex-R5F MCUs in general compute partition
Deep-learning Matrix Multiply Accelerator (MMA), up to 8 TOPS (8b) at 1.0 GHz
C7x floating point, vector DSP, up to 1.0 GHz, 80 GFLOPS, 256 GOPS
Two C66x floating point DSP, up to 1.35 GHz, 40 GFLOPS, 160 GOPS
3D GPU PowerVR Rogue 8XE GE8430, up to 750 MHz, 96 GFLOPS, 6 Gpix/sec
Memory subsystem:
Up to 8MB of on-chip L3 RAM with ECC and coherency
- ECC error protection
- Shared coherent cache
- Supports internal DMA engine
External Memory Interface (EMIF) module with ECC
- Supports LPDDR4 memory types
- Supports speeds up to 4266 MT/s
- 32-bit data bus with inline ECC up to 14.9GB/s
General-Purpose Memory Controller (GPMC)
512KB on-chip SRAM in MAIN domain, protected by ECC
Display subsystem:
One eDP/DP interface with Multi-Display Support (MST)
- HDCP1.4/HDCP2.2 high-bandwidth digital content protection
One DSI TX (up to 2.5K)
Up to two DPI
Video acceleration:
Ultra-HD video, one (3840 × 2160p, 60 fps), or two (3840 × 2160p, 30 fps) H.264/H.265 decode
Full-HD video, four (1920 × 1080p, 60 fps), or eight (1920 × 1080p, 30 fps) H.264/H.265 decode
Full-HD video, one (1920 × 1080p, 60 fps), or up to three (1920 × 1080p, 30 fps) H.264 encode
Functional Safety:
Functional Safety-Compliant targeted (on select part numbers)
- Developed for functional safety applications
- Documentation available to aid ISO 26262/IEC 61508 functional safety system design up to ASIL-D/SIL-3 targeted
- Systematic capability up to ASIL-D/SC-3 targeted
- Hardware integrity up to ASIL-D/SIL-3 targeted for MCU Domain
- Hardware integrity up to ASIL-B/SIL-2 targeted for Main Domain
- Safety-related certification
  - ISO 26262 certification up to ASIL-D by TÜV SÜD planned
  - IEC 61508 certification up to SIL-3 by TÜV SÜD planned
AEC-Q100 qualified on part number variants ending in Q1
Device security (on select part numbers):
Secure boot with secure run-time support
Customer programmable root key, up to RSA-4K or ECC-512
Embedded hardware security module
Crypto hardware accelerators – PKA with ECC, AES, SHA, RNG, DES and 3DES
High speed serial interfaces:
Two CSI2.0 4L RX plus one CSI2.0 4L TX
Integrated Ethernet switch supporting up to 8 external ports
- All ports support 2.5Gb SGMII
- All ports support 1Gb SGMII/RGMII
- All ports support 100Mb RMII
- Any two ports support QSGMII (using 4 internal ports per QSGMII)
Up to four PCI-Express (PCIe) Gen3 controllers
- Gen1 (2.5GT/s), Gen2 (5.0GT/s), and Gen3 (8.0GT/s) operation with auto-negotiation
- Up to two lanes per controller
Two USB 3.0 dual-role device (DRD) subsystem
- Two enhanced SuperSpeed Gen1 ports
- Each port supports Type-C switching
- Each port independently configurable as USB host, USB peripheral, or USB DRD
Automotive interfaces:
Sixteen Modular Controller Area Network (MCAN) modules with full CAN-FD support
Audio interfaces:
Twelve Multichannel Audio Serial Port (MCASP) modules
Flash memory interfaces:
Embedded MultiMediaCard interface ( eMMC™ 5.1)
Universal Flash Storage (UFS 2.1) interface with two lanes
Two Secure Digital 3.0/Secure Digital Input Output 3.0 interfaces (SD3.0/SDIO3.0)
Two simultaneous flash interfaces configured as
- One OSPI and one QSPI flash interfaces
- or one HyperBus™ and one QSPI flash interface
System-on-Chip (SoC) architecture:
16-nm FinFET technology
24 mm × 24 mm, 0.8-mm pitch, 827-pin FCBGA (ALF), enables IPC class 3 PCB routing
TPS6594-Q1 Companion Power Management ICs (PMIC):
Functional Safety support up to ASIL-D
Flexible mapping to support different use cases

Processor cores:

Dual 64-bit Arm Cortex-A72 microprocessor subsystem at up to 2.0GHz
- 1MB shared L2 cache per dual-core Arm Cortex-A72 cluster
- 32KB L1 DCache and 48KB L1 ICache per Cortex-A72 Core
Six Arm Cortex-R5F MCUs at up to 1.0GHz
- 16K I-Cache, 16K D-Cache, 64K L2 TCM
- Two Arm Cortex-R5F MCUs in isolated MCU subsystem
- Four Arm Cortex-R5F MCUs in general compute partition
Deep-learning Matrix Multiply Accelerator (MMA), up to 8 TOPS (8b) at 1.0 GHz
C7x floating point, vector DSP, up to 1.0 GHz, 80 GFLOPS, 256 GOPS
Two C66x floating point DSP, up to 1.35 GHz, 40 GFLOPS, 160 GOPS
3D GPU PowerVR Rogue 8XE GE8430, up to 750 MHz, 96 GFLOPS, 6 Gpix/sec
Memory subsystem:
Up to 8MB of on-chip L3 RAM with ECC and coherency
- ECC error protection
- Shared coherent cache
- Supports internal DMA engine
External Memory Interface (EMIF) module with ECC
- Supports LPDDR4 memory types
- Supports speeds up to 4266 MT/s
- 32-bit data bus with inline ECC up to 14.9GB/s
General-Purpose Memory Controller (GPMC)
512KB on-chip SRAM in MAIN domain, protected by ECC
Display subsystem:
One eDP/DP interface with Multi-Display Support (MST)
- HDCP1.4/HDCP2.2 high-bandwidth digital content protection
One DSI TX (up to 2.5K)
Up to two DPI
Video acceleration:
Ultra-HD video, one (3840 × 2160p, 60 fps), or two (3840 × 2160p, 30 fps) H.264/H.265 decode
Full-HD video, four (1920 × 1080p, 60 fps), or eight (1920 × 1080p, 30 fps) H.264/H.265 decode
Full-HD video, one (1920 × 1080p, 60 fps), or up to three (1920 × 1080p, 30 fps) H.264 encode
Functional Safety:
Functional Safety-Compliant targeted (on select part numbers)
- Developed for functional safety applications
- Documentation available to aid ISO 26262/IEC 61508 functional safety system design up to ASIL-D/SIL-3 targeted
- Systematic capability up to ASIL-D/SC-3 targeted
- Hardware integrity up to ASIL-D/SIL-3 targeted for MCU Domain
- Hardware integrity up to ASIL-B/SIL-2 targeted for Main Domain
- Safety-related certification
  - ISO 26262 certification up to ASIL-D by TÜV SÜD planned
  - IEC 61508 certification up to SIL-3 by TÜV SÜD planned
AEC-Q100 qualified on part number variants ending in Q1
Device security (on select part numbers):
Secure boot with secure run-time support
Customer programmable root key, up to RSA-4K or ECC-512
Embedded hardware security module
Crypto hardware accelerators – PKA with ECC, AES, SHA, RNG, DES and 3DES
High speed serial interfaces:
Two CSI2.0 4L RX plus one CSI2.0 4L TX
Integrated Ethernet switch supporting up to 8 external ports
- All ports support 2.5Gb SGMII
- All ports support 1Gb SGMII/RGMII
- All ports support 100Mb RMII
- Any two ports support QSGMII (using 4 internal ports per QSGMII)
Up to four PCI-Express (PCIe) Gen3 controllers
- Gen1 (2.5GT/s), Gen2 (5.0GT/s), and Gen3 (8.0GT/s) operation with auto-negotiation
- Up to two lanes per controller
Two USB 3.0 dual-role device (DRD) subsystem
- Two enhanced SuperSpeed Gen1 ports
- Each port supports Type-C switching
- Each port independently configurable as USB host, USB peripheral, or USB DRD
Automotive interfaces:
Sixteen Modular Controller Area Network (MCAN) modules with full CAN-FD support
Audio interfaces:
Twelve Multichannel Audio Serial Port (MCASP) modules
Flash memory interfaces:
Embedded MultiMediaCard interface ( eMMC™ 5.1)
Universal Flash Storage (UFS 2.1) interface with two lanes
Two Secure Digital 3.0/Secure Digital Input Output 3.0 interfaces (SD3.0/SDIO3.0)
Two simultaneous flash interfaces configured as
- One OSPI and one QSPI flash interfaces
- or one HyperBus™ and one QSPI flash interface
System-on-Chip (SoC) architecture:
16-nm FinFET technology
24 mm × 24 mm, 0.8-mm pitch, 827-pin FCBGA (ALF), enables IPC class 3 PCB routing
TPS6594-Q1 Companion Power Management ICs (PMIC):
Functional Safety support up to ASIL-D
Flexible mapping to support different use cases

DRA829 processors, based on the Arm®v8 64-bit architecture, provide advanced system integration to enable lower system costs of automotive and industrial applications. The integrated diagnostics and functional safety features are targeted to ASIL-B/C or SIL-2 certification/requirements. The integrated microcontroller (MCU) island eliminates the need for an external system MCU. The device features a Gigabit Ethernet switch and a PCIe hub which enables networking use cases that require heavy data bandwidth. Up to four Arm Cortex-R5F subsystems manage low level, timing critical processing tasks leaving the Arm Cortex-A72’s unencumbered for applications. A dual-core cluster configuration of Arm Cortex-A72 facilitates multi-OS applications with minimal need for a software hypervisor.

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Technical documentation

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Top documentation	Type	Title	Format options	Date
*	Data sheet	DRA829 Processors datasheet (Rev. K)	PDF \| HTML	22 Apr 2024
*	Errata	J721E DRA829/TDA4VM Processors Silicon Revision 2.0/1.1/1.0 (Rev. F)	PDF \| HTML	26 Feb 2025
*	User guide	J721E DRA829/TDA4VM Processors Silicon Revision 2.0, 1.1 Technical Reference Manual (Rev. D)	PDF \| HTML	16 Jan 2025
	Application note	Boot Flow Options on TDA4 Devices	PDF \| HTML	05 Jan 2026
	Functional safety information	J721E, J721S2, J7200, J784S4, and J742S2 TÜV SÜD Letter of Confirmation for Software Component Qualification		01 Oct 2025
	Functional safety information	J7200, J721E, J721S2, J722S, J742S2, and J784S4 SDL TÜV SÜD Functional Safety Certificate (Rev. A)		25 Sep 2025
	Functional safety information	J721E, J721S2, J7200, J722S, J742S2, J784S4 MCAL TÜV SÜD Functional Safety Certificate (Rev. A)		25 Sep 2025
	Functional safety information	DRA829/TDA4VM TÜV SÜD Functional Safety Certificate - Automotive - PG2.0 (Rev. A)		28 Aug 2025
	Functional safety information	DRA829/TDA4VM TÜV SÜD Functional Safety Report - Automotive - PG2.0 (Rev. A)		28 Aug 2025
	Functional safety information	TÜV SÜD Certificate for Functional Safety Software Development Process (Rev. D)		17 Jun 2025
	White paper	Securing Arm-Based Application Processors (Rev. F)	PDF \| HTML	26 Feb 2025
	Application note	Jacinto 7 LPDDR4 Board Design and Layout Guidelines (Rev. F)	PDF \| HTML	05 Aug 2024
	Application note	Debugging GPU Driver Issues on TDA4x and AM6x Devices	PDF \| HTML	20 Jun 2024
	Application note	Jacinto7 AM6x, TDA4x, and DRA8x High-Speed Interface Design Guidelines (Rev. A)	PDF \| HTML	04 Jun 2024
	Application note	MMC SW Tuning Algorithm (Rev. A)	PDF \| HTML	14 May 2024
	Application note	Jacinto7 AM6x/TDA4x/DRA8x Schematic Checklist (Rev. B)	PDF \| HTML	04 Apr 2024
	Application note	Jacinto7 HS Device Customer Return Process	PDF \| HTML	16 Nov 2023
	Application note	Using TSN Ethernet Features to Improve Timing in Industrial Ethernet Controllers	PDF \| HTML	15 Nov 2023
	More literature	Jacinto 7 EVM Quick Start Guide for TDA4VM and DRA829V Processors (Rev. A)	PDF \| HTML	09 Aug 2023
	Application note	Understanding TDA4VM or DRA829 Memory for Optimal Performance	PDF \| HTML	14 Jun 2023
	Application note	UART Log Debug System on Jacinto 7 SoC	PDF \| HTML	09 Jan 2023
	Functional safety information	Jacinto Functional Safety Enablers (Rev. A)	PDF \| HTML	12 Dec 2022
	Product overview	Jacinto™ 7 Safety Product Overview	PDF \| HTML	15 Aug 2022
	Certificate	J721E SDL TUV Certification		08 Aug 2022
	Application note	Proof of Concept Enablement for Jacinto TDA4VM OpenVx Host on R5F MCU2_0	PDF \| HTML	25 Jul 2022
	Application note	Dual-TDA4x System Solution	PDF \| HTML	29 Apr 2022
	Application note	SPI Enablement & Validation on TDA4 Family	PDF \| HTML	05 Apr 2022
	User guide	TPS65941213-Q1 and LP876411B4-Q1 PMIC User Guide for J721E, PDN-1A	PDF \| HTML	02 Feb 2022
	User guide	TPS65941212-Q1 and TPS65941111-Q1 PMIC User Guide for J721E, PDN-0B (Rev. B)	PDF \| HTML	31 Jan 2022
	Technical article	How to simplify your embedded edge AI application development	PDF \| HTML	28 Jan 2022
	Application note	Enabling MAC2MAC Feature on Jacinto7 Soc		10 Jan 2022
	More literature	Jacinto™ 7 automotive processors		14 Dec 2021
	Application note	Jacinto 7 Display Subsystem Overview	PDF \| HTML	10 Dec 2021
	Application note	Jacinto 7 Thermal Management Guide - Software Strategies	PDF \| HTML	10 Dec 2021
	Functional safety information	Leverage Jacinto 7 Processors Functional Safety Features for Automotive Designs (Rev. A)	PDF \| HTML	13 Oct 2021
	Application note	TDA4 Flashing Techniques	PDF \| HTML	08 Jul 2021
	Application note	Jacinto 7 Camera Capture and Imaging Subsystem	PDF \| HTML	07 Jul 2021
	Application note	J721E DDR Firewall Example	PDF \| HTML	01 Jul 2021
	White paper	Jacinto™ 7 프로세서의 보안 구현 도구		04 Jan 2021
	White paper	Security Enablers on Jacinto™ 7 Processors		04 Jan 2021
	White paper	Sicherheitsaktivierung auf Jacinto™ 7-Prozessoren		04 Jan 2021
	White paper	Differenzierungsmöglichkeit durch MCU-Integration Prozessoren der Reihe Jacinto™		22 Oct 2020
	White paper	Enabling Differentiation through MCU Integration on Jacinto™ 7 Processors		22 Oct 2020
	White paper	Jacinto™ 7 프로세서의 MCU 통합으로 차별화 지원		22 Oct 2020
	White paper	Evolving automotive gateways for next-generation vehicles (Rev. B)		09 Oct 2020
	White paper	為下一代車輛開發的汽車閘道 (Rev. B)		09 Oct 2020
	White paper	차세대 자동차를 위한 진화하는 차량용 게이트웨이 (Rev. B)		09 Oct 2020
	Application note	OSPI Tuning Procedure	PDF \| HTML	08 Jul 2020
	Technical article	Making ADAS technology more accessible in vehicles	PDF \| HTML	07 Jan 2020

Design & development

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

Evaluation board

J721EXCPXEVM — Common processor board for Jacinto™ 7 processors

The J721EXCP01EVM common processor board for Jacinto™ 7 processors lets you evaluate vision analytics and networking applications in automotive and industrial markets. The common processor board is compatible with all Jacinto 7 processors system-on-modules (sold separately or as a (...)

User guide: PDF | HTML

Not available on TI.com

Evaluation board

J721EXSOMXEVM — TDA4VM and DRA829V socketed system on module (SoM)

The J721EXSOMXEVM socketed system on module (SoM) — when paired with the J721EXPCP01EVM common processor board — is used for evaluating TDA4VM and DRA829V processors in vision analytics and networking applications throughout automotive and industrial markets. These processors perform (...)

User guide: PDF | HTML

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Evaluation board

J7EXPCXEVM — Gateway/Ethernet switch expansion card

Expand the capabilities of the J721EXCP01EVM common processor board for evaluating Jacinto 7 processors in vision analytics and networking applications in automotive and industrial markets with our Gateway/Ethernet switch expansion card.

User guide: PDF | HTML

Not available on TI.com

Evaluation board

J7EXPEXEVM — Audio and display expansion card

User guide: PDF | HTML

Not available on TI.com

Debug probe

TMDSEMU560V2STM-U — XDS560™ software v2 system trace USB debug probe

The XDS560v2 is the highest performance of the XDS560™ family of debug probes and supports both the traditional JTAG standard (IEEE1149.1) and cJTAG (IEEE1149.7). Note that it does not support serial wire debug (SWD).

All XDS debug probes support Core and System Trace in all ARM and DSP processors (...)

Not available on TI.com

Debug probe

LB-3P-TRACE32-ARM — Lauterbach TRACE32® Debug and Trace System for Arm®-based Microcontrollers and Processors

Lauterbach‘s TRACE32® tools are a suite of leading-edge hardware and software components that enables developers to analyze, optimize and certify all kinds of Arm®-based microcontrollers and processors. The globally renowned debug and trace solutions for embedded systems and SoCs are the perfect (...)

From: Lauterbach GmbH

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