DRA76P

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Hochleistungs-Multicore-SoC-Prozessoren mit ISP für digitale Cockpit-Anwendungen

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Datenblatt

document-pdfAcrobat DRA77xP, DRA76xP Infotainment Applications Processor Silicon Revision 1.0 datasheet (Rev. E) (Englisch) PDF | HTML

Benutzerhandbücher

document-pdfAcrobat
DRA77xP, DRA76xP, DRA75xP, DRA74xP Technical Reference Manual (Rev. C) (Englisch)

Fehlerverzeichnis

document-pdfAcrobat
DRA7xx Silicon Errata (Rev. A) (Englisch)

DRA76P

AKTIV

Datenblatt

Jetzt bestellen

Produktdetails

Arm CPU

2 Arm Cortex-A15

Arm (max) (MHz)

1800

Coprocessors

2 Dual Arm Cortex-M4

CPU

32-bit

Graphics acceleration

1 2D, 2 3D

Display type

1 HDMI, 3 LCD

Protocols

Ethernet

Ethernet MAC

1-Port 10/100/1000, 2-Port 1Gb switch

PCIe

1 PCIe Gen 2

Hardware accelerators

1 Image Subsystem Processor, 1 Image Video Accelerator, 2 Viterbi Decoder, Audio Tracking

Features

Multimedia

Operating system

Android, Linux, RTOS

Security

Cryptography, Debug security, Device identity, Isolation firewalls, Secure boot, Secure storage & programming, Software IP protection

Rating

Automotive

Operating temperature range (°C)

-40 to 125

Arm CPU

2 Arm Cortex-A15

Arm (max) (MHz)

1800

Coprocessors

2 Dual Arm Cortex-M4

CPU

32-bit

Graphics acceleration

1 2D, 2 3D

Display type

1 HDMI, 3 LCD

Protocols

Ethernet

Ethernet MAC

1-Port 10/100/1000, 2-Port 1Gb switch

PCIe

1 PCIe Gen 2

Hardware accelerators

1 Image Subsystem Processor, 1 Image Video Accelerator, 2 Viterbi Decoder, Audio Tracking

Features

Multimedia

Operating system

Android, Linux, RTOS

Security

Cryptography, Debug security, Device identity, Isolation firewalls, Secure boot, Secure storage & programming, Software IP protection

Rating

Automotive

Operating temperature range (°C)

-40 to 125

FCCSP (ACD)

784

529 mm² 23 x 23

Architecture Designed for Infotainment Applications
Video, Image, and Graphics Processing Support
- Full-HD Video (1920 × 1080p, 60 fps)
- Multiple Video Input and Video Output
- 2D and 3D Graphics
Dual Arm^® Cortex^®-A15 Microprocessor Subsystem
Up to Two C66x Floating-Point VLIW DSP
- Fully Object-Code Compatible with C67x and C64x+
- Up to Thirty-Two 16 x 16-Bit Fixed-Point Multiplies per Cycle
Up to 2.5MB of On-Chip L3 RAM
Level 3 (L3) and Level 4 (L4) Interconnects
Two DDR2/DDR3/DDR3L Memory Interface (EMIF) Modules
- Supports up to DDR2-800 and DDR3-1333
- Up to 2GB Supported per EMIF
Dual ARM® Cortex®-M4 Image Processing Units (IPU)
Up to Two Embedded Vision Engines (EVEs)
Imaging Subsystem (ISS)
- Image Signal Processor (ISP)
- Wide Dynamic Range and Lens Distortion Correction (WDR and Mesh LDC)
- One Camera Adaptation Layer (CAL_B)
IVA Subsystem
Display Subsystem
- Display Controller with DMA Engine and up to Three Pipelines
- HDMI™ Encoder: HDMI 1.4a and DVI 1.0 Compliant
Video Processing Engine (VPE)
2D-Graphics Accelerator (BB2D) Subsystem
- Vivante^® GC320 Core
Dual-Core PowerVR^® SGX544 3D GPU
Two Video Input Port (VIP) Modules
- Support for up to Eight Multiplexed Input Ports
General-Purpose Memory Controller (GPMC)
Enhanced Direct Memory Access (EDMA) Controller
2-Port Gigabit Ethernet (GMAC)
Sixteen 32-Bit General-Purpose Timers
32-Bit MPU Watchdog Timer
Five Inter-Integrated Circuit (I²C) Ports
HDQ™/1-Wire^® Interface
SATA Interface
Media Local Bus (MLB) Subsystem
Ten Configurable UART/IrDA/CIR Modules
Four Multichannel Serial Peripheral Interfaces (McSPI)
Quad SPI (QSPI)
Eight Multichannel Audio Serial Port (McASP) Modules
SuperSpeed USB 3.0 Dual-Role Device
Three High-Speed USB 2.0 Dual-Role Devices
Four MultiMedia Card/Secure Digital/Secure Digital Input Output Interfaces (MMC™/SD^®/SDIO)
PCI Express^® 3.0 Subsystems with Two 5-Gbps Lanes
- One 2-Lane Gen2-Compliant Port
- or Two 1-Lane Gen2-Compliant Ports
Up to Two Controller Area Network (DCAN) Modules
- CAN 2.0B Protocol
Modular Controller Area Network (MCAN) Module
- CAN 2.0B Protocol with Available FD (Flexible Data Rate) Functionality
MIPI CSI-2 Camera Serial Interface
Up to 247 General-Purpose I/O (GPIO) Pins
Device Security Features
- Hardware Crypto Accelerators and DMA
- Firewalls
- JTAG^® Lock
- Secure Keys
- Secure ROM and Boot
- Customer Programmable Keys and OTP Data
Power, Reset, and Clock Management
On-Chip Debug with CTools Technology
28-nm CMOS Technology
23 mm × 23 mm, 0.8-mm Pitch, 784-Pin BGA (ACD)

Architecture Designed for Infotainment Applications
Video, Image, and Graphics Processing Support
- Full-HD Video (1920 × 1080p, 60 fps)
- Multiple Video Input and Video Output
- 2D and 3D Graphics
Dual Arm^® Cortex^®-A15 Microprocessor Subsystem
Up to Two C66x Floating-Point VLIW DSP
- Fully Object-Code Compatible with C67x and C64x+
- Up to Thirty-Two 16 x 16-Bit Fixed-Point Multiplies per Cycle
Up to 2.5MB of On-Chip L3 RAM
Level 3 (L3) and Level 4 (L4) Interconnects
Two DDR2/DDR3/DDR3L Memory Interface (EMIF) Modules
- Supports up to DDR2-800 and DDR3-1333
- Up to 2GB Supported per EMIF
Dual ARM® Cortex®-M4 Image Processing Units (IPU)
Up to Two Embedded Vision Engines (EVEs)
Imaging Subsystem (ISS)
- Image Signal Processor (ISP)
- Wide Dynamic Range and Lens Distortion Correction (WDR and Mesh LDC)
- One Camera Adaptation Layer (CAL_B)
IVA Subsystem
Display Subsystem
- Display Controller with DMA Engine and up to Three Pipelines
- HDMI™ Encoder: HDMI 1.4a and DVI 1.0 Compliant
Video Processing Engine (VPE)
2D-Graphics Accelerator (BB2D) Subsystem
- Vivante^® GC320 Core
Dual-Core PowerVR^® SGX544 3D GPU
Two Video Input Port (VIP) Modules
- Support for up to Eight Multiplexed Input Ports
General-Purpose Memory Controller (GPMC)
Enhanced Direct Memory Access (EDMA) Controller
2-Port Gigabit Ethernet (GMAC)
Sixteen 32-Bit General-Purpose Timers
32-Bit MPU Watchdog Timer
Five Inter-Integrated Circuit (I²C) Ports
HDQ™/1-Wire^® Interface
SATA Interface
Media Local Bus (MLB) Subsystem
Ten Configurable UART/IrDA/CIR Modules
Four Multichannel Serial Peripheral Interfaces (McSPI)
Quad SPI (QSPI)
Eight Multichannel Audio Serial Port (McASP) Modules
SuperSpeed USB 3.0 Dual-Role Device
Three High-Speed USB 2.0 Dual-Role Devices
Four MultiMedia Card/Secure Digital/Secure Digital Input Output Interfaces (MMC™/SD^®/SDIO)
PCI Express^® 3.0 Subsystems with Two 5-Gbps Lanes
- One 2-Lane Gen2-Compliant Port
- or Two 1-Lane Gen2-Compliant Ports
Up to Two Controller Area Network (DCAN) Modules
- CAN 2.0B Protocol
Modular Controller Area Network (MCAN) Module
- CAN 2.0B Protocol with Available FD (Flexible Data Rate) Functionality
MIPI CSI-2 Camera Serial Interface
Up to 247 General-Purpose I/O (GPIO) Pins
Device Security Features
- Hardware Crypto Accelerators and DMA
- Firewalls
- JTAG^® Lock
- Secure Keys
- Secure ROM and Boot
- Customer Programmable Keys and OTP Data
Power, Reset, and Clock Management
On-Chip Debug with CTools Technology
28-nm CMOS Technology
23 mm × 23 mm, 0.8-mm Pitch, 784-Pin BGA (ACD)

DRA77xP and DRA76xP (Jacinto 6 Plus) automotive applications processors are built to meet the intense processing needs of the modern digital cockpit automobile experiences.

The device enables Original-Equipment Manufacturers (OEMs) and Original-Design Manufacturers (ODMs) to quickly implement innovative connectivity technologies, speech recognition, audio streaming, and more. Jacinto 6 Plus devices bring high processing performance through the maximum flexibility of a fully integrated mixed processor solution. The devices also combine programmable video processing with a highly integrated peripheral set.

Programmability is provided by dual-core Arm Cortex-A15 RISC CPUs with Neon™ extension, TI C66x VLIW floating-point DSP core, and Vision AccelerationPac (with one or more EVEs). The Arm allows developers to keep control functions separate from other algorithms programmed on the DSP and coprocessors, thus reducing the complexity of the system software.

Additionally, TI provides a complete set of development tools for the Arm, DSP, and EVE coprocessor, including C compilers and a debugging interface for visibility into source code.

Cryptographic acceleration is available in all devices. All other supported security features, including support for secure boot, debug security and support for trusted execution environment are available on High-Security (HS) devices. For more information about HS devices, contact your TI representative.

The DRA77xP and DRA76xP Jacinto 6 Plus processor family is qualified according to the AEC-Q100 standard.

DRA77x and DRA76x (Jacinto 6 Plus) automotive applications processors are built to meet the intense processing needs of the modern digital cockpit automobile experiences.

Programmability is provided by dual-core Arm Cortex-A15 RISC CPUs with Neon extension, TI C66x VLIW floating-point DSP core, and Vision AccelerationPac (with one or more EVEs). The Arm allows developers to keep control functions separate from other algorithms programmed on the DSP and coprocessors, thus reducing the complexity of the system software.

Additionally, TI provides a complete set of development tools for the Arm, DSP, and EVE coprocessor, including C compilers and a debugging interface for visibility into source code.

The DRA77x and DRA76x Jacinto 6 Plus processor family is qualified according to the AEC-Q100 standard.

DRA77xP and DRA76xP (Jacinto 6 Plus) automotive applications processors are built to meet the intense processing needs of the modern digital cockpit automobile experiences.

Additionally, TI provides a complete set of development tools for the Arm, DSP, and EVE coprocessor, including C compilers and a debugging interface for visibility into source code.

The DRA77xP and DRA76xP Jacinto 6 Plus processor family is qualified according to the AEC-Q100 standard.

DRA77x and DRA76x (Jacinto 6 Plus) automotive applications processors are built to meet the intense processing needs of the modern digital cockpit automobile experiences.

Additionally, TI provides a complete set of development tools for the Arm, DSP, and EVE coprocessor, including C compilers and a debugging interface for visibility into source code.

The DRA77x and DRA76x Jacinto 6 Plus processor family is qualified according to the AEC-Q100 standard.

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Alle anzeigen 44

	Typ	Titel		Datum
*	Data sheet	DRA77xP, DRA76xP Infotainment Applications Processor Silicon Revision 1.0 datasheet (Rev. E)	PDF \| HTML	10 Dez 2018
*	Errata	DRA7xx Silicon Errata (Rev. A)	PDF \| HTML	15 Feb 2021
*	User guide	DRA77xP, DRA76xP, DRA75xP, DRA74xP Technical Reference Manual (Rev. C)		25 Feb 2020
	Application note	Integrating virtual DRM between VISION SDK and PSDK on Jacinto6 SOC	PDF \| HTML	05 Mai 2021
	More literature	Building your application with security in mind (Rev. E)		28 Okt 2020
	Application note	IVA-HD Sharing Between VISION-SDK and PSDKLA on Jacinto6 SoC	PDF \| HTML	24 Aug 2020
	Application note	AM57x, DRA7x, and TDA2x EMIF Tools (Rev. E)		06 Jan 2020
	Application note	Integrating New Cameras With Video Input Port on DRA7xx SoCs	PDF \| HTML	11 Jun 2019
	Application note	Achieving Early CAN Response on DRA7xx Devices		28 Nov 2018
	Application note	DRA74x_75x/DRA72x Performance (Rev. A)		31 Okt 2018
	Application note	Audio Post Processing Engine on Jacinto™ DRA7x Family of Devices		14 Sep 2018
	Application note	The Implementation of YUV422 Output for SRV		02 Aug 2018
	Application note	MMC DLL Tuning (Rev. B)		31 Jul 2018
	Application note	Integrating AUTOSAR on TI SoC: Fundamentals		18 Jun 2018
	Application note	ECC/EDC on TDAxx (Rev. B)		13 Jun 2018
	Application note	Tools and Techniques to Root Case Failures in Video Capture Subsystem		12 Jun 2018
	Application note	Sharing VPE Between VISIONSDK and PSDKLA		04 Mai 2018
	User guide	LP87565C-Q1 and TPS65917-Q1 User’s Guide to Power DRA7xxP and TDA2Pxx (Rev. A)		20 Apr 2018
	Application note	Android Boot Optimization on DRA7xx Devices (Rev. A)		13 Feb 2018
	Technical article	Jacinto™ DRA automotive processors drive digital cockpit solutions	PDF \| HTML	12 Jan 2018
	Application note	Flashing Utility - mflash		09 Jan 2018
	Application note	Using Peripheral Boot and DFU for Rapid Development on Jacinto 6 Devices (Rev. A)		30 Nov 2017
	Application note	Jacinto6 Spread Spectrum Clocking Configuration (Rev. A)		27 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	Robust Rear-View Camera (RVC) App Report		13 Sep 2017
	Application note	Optimization of GPU-Based Surround View on TI’s TDA2x SoC		12 Sep 2017
	Application note	Using DSS Write-Back Pipeline for RGB-to-YUV Conversion on DRA7xx Devices		14 Aug 2017
	Application note	Software Guidelines to EMIF/DDR3 Configuration on DRA7xx Devices		12 Jul 2017
	White paper	Revolutionize the automotive cockpit		02 Jun 2017
	Application note	Linux Boot Time Optimizations on DRA7xx Devices		31 Mär 2017
	Application note	Interfacing DRA75x and DRA74x Audio to Analog Codecs (Rev. A)		17 Feb 2017
	Application note	Early Splash Screen on DRA7x Devices		31 Jan 2017
	Application note	Quality of Service (QoS) Knobs for DRA74x, DRA75x & TDA2x Family of Devices (Rev. A)		15 Dez 2016
	Application note	Gstreamer Migration Guidelines		26 Apr 2016
	User guide	Jacinto6 Android Video Decoder Software Design Specification User's Guide		21 Apr 2016
	User guide	Jacinto6 Android Video Encoder Software Design Specification User's Guide		21 Apr 2016
	Application note	Flashing Binaries to DRA7xx Factory Boards Using DFU		14 Apr 2016
	Application note	Tools and Techniques for Audio Debugging		13 Apr 2016
	Application note	Debugging Tools and Techniques With IPC3.x		30 Mär 2016
	Application note	Modifying Memory Usage for IPUMM Applications Loaded IPC 3.x for DRA75x, DRA74x (Rev. A)		15 Jan 2016
	White paper	Informational ADAS as Software Upgrade to Today’s Infotainment Systems		14 Okt 2014
	Application note	Guide to fix Perf Issues Using QoS Knobs for DRA74x, DRA75x, TDA2x & TD3x Device		13 Aug 2014
	White paper	Today’s high-end infotainment soon becoming mainstream		02 Jun 2014

Design und Entwicklung

Weitere Bedingungen oder erforderliche Ressourcen enthält gegebenenfalls die Detailseite, die Sie durch Klicken auf einen der unten stehenden Titel erreichen.

Evaluierungsplatine

J6PEVM577P — DRA7xP-Evaluierungsmodul

The DRA77xP/DRA76xP-ACD is an evaluation platform designed to allow scalability and re-use across DRA77xP and DRA76xP Jacinto^TM Infotainment System-on-Chips (SoCs), it is based on Jacinto DRA77xP SoC that incorporates a heterogeneous, scalable architecture that includes a mix of two ARM Cortex-A15 (...)

Von: SVTRONICS INC

Benutzerhandbuch: PDF

Partner-Website besuchen

Software-Entwicklungskit (SDK)

PROCESSOR-SDK-ANDROID-AUTOMOTIVE-DRA7X

Processor SDK Linux Automotive

Processor SDK Linux Automotive is the foundational software development platform for TI's Jacinto™ DRAx family of Infotainment SoCs. The software framework allows users to develop feature-rich Infotainment solutions such as reconfigurable digital instrument (...)

Unterstützte Produkte und Hardware

Produkte

ARM-basierte Prozessoren

DRA710 — 600-MHz-Arm Cortex-A15-SoC-Prozessor mit Grafik für Infotainment und Cluster

DRA712 — SoC-Prozessor Arm Cortex-A15, 600 MHz, mit Grafik & Dual Arm Cortex M4 für Infotainment & Kombiinstr

DRA714 — 600-MHz-Arm Cortex-A15-SoC-Prozessor mit Grafik für Infotainment und Cluster

DRA716 — 800-MHz-Arm Cortex-A15-SoC-Prozessor mit Grafik für Infotainment und Cluster

DRA718 — SoC-Prozessor Arm Cortex-A15, 1 GHz, mit Grafik & DSP für Infotainment & Kombiinstrument

DRA722 — 800-MHz-Arm Cortex-A15-SoC-Prozessor mit Grafik und DSP für Infotainment und Cluster in Fahrzeugen

DRA724 — SoC-Prozessor 1-GHz-Arm Cortex-A15 mit Grafik und DSP für Infotainment & Cluster in Fahrzeugen

DRA725 — SoC-Prozessor 1,2-GHz-Arm Cortex-A15 mit Grafik und DSP für Infotainment & Cluster in Fahrzeugen

DRA726 — Arm Cortex-A15, 1,5 GHz, mit Grafik & DSP für Infotainment & Kombiinstrument

DRA74P — Multicore-SoC-Prozessoren mit ISP und pinkompatibel mit SoC-Prozessoren DRA74x

DRA75P — Multicore-SoC-Prozessoren mit ISP und pinkompatibel mit SoCs DRA75x für Infotainment-Anwendungen

DRA76P — Hochleistungs-Multicore-SoC-Prozessoren mit ISP für digitale Cockpit-Anwendungen

DRA77P — Hochleistungs-Multi-Core SoCs mit erweiterten Peripheriegeräten und ISP für digitale Cockpit-Anwendu

DRA790 — SoC-Prozessor Arm Cortex-A15, 300 MHz, mit C66x-DSP, 500 MHz, für Audioverstärker

DRA791 — SoC-Prozessor Arm Cortex-A15, 300 MHz, mit C66x-DSP, 750 MHz, für Audioverstärker

DRA793 — SoC-Prozessor Arm Cortex-A15, 500 MHz, mit C66x-DSP, 750 MHz, für Audioverstärker

DRA797 — SoC-Prozessor Arm Cortex-A15, 800 MHz, mit C66x-DSP, 750 MHz, für Audioverstärker

Digitale Signalprozessoren (DSPs)

DRA780 — SoC-Prozessor mit 500 MHz C66x DSP und 2 Dual-Arm Cortex-M4 für Audioverstärker

DRA781 — SoC-Prozessor mit 750 MHz C66x DSP und 2 Dual-Arm Cortex-M4 für Audioverstärker

DRA782 — SoC-Prozessor mit 2x 500 MHz C66x DSP und 2 Dual-Arm Cortex-M4 für Audioverstärker

DRA783 — SoC-Prozessor mit 2x 750 MHz C66x DSP und 2 Dual-Arm Cortex-M4 für Audioverstärker

DRA785 — SoC-Prozessor mit 2x 1000 MHz C66x DSP und 2 Dual-Arm Cortex-M4 für Audioverstärker

DRA786 — SoC-Prozessor mit 2x 500 MHz C66x DSP und 2 Dual-Arm Cortex-M4 & EVE für Audioverstärker

DRA787 — SoC-Prozessor mit 2x 750 MHz C66x DSP und 2 Dual-Arm Cortex-M4 & EVE für Audioverstärker

DRA788 — SoC-Prozessor mit 2x 1000 MHz C66x DSP und 1x EVE und 2 Dual Arm Cortex-M4 für Audioverstärker

Download-Optionen

Software-Entwicklungskit (SDK)

PROCESSOR-SDK-LINUX-AUTOMOTIVE-DRA7X — PROCESSOR-SDK-LINUX-AUTOMOTIVE-DRA7X