Product details

Arm CPU 2 Arm Cortex-A15 Arm MHz (Max.) 1500 Co-processor(s) 2 Dual Arm Cortex-M4 CPU 32-bit Graphics acceleration 1 2D, 2 3D Display type 3 LCD, 1 HDMI Protocols Ethernet, ICSS, Profinet, Profibus Ethernet MAC 1-Port 10/100/1000, 2-Port 1Gb switch, 4-Port 10/100 PRU EMAC PCIe 2 PCIe Gen 2 Hardware accelerators 4 Embedded Vision Engines (EVE) Operating system Android, Linux, RTOS Security Cryptography, Debug security, Device identity, Isolation firewalls, Secure boot, Secure storage & programming, Software IP protection Rating Catalog Operating temperature range (C) -40 to 105, 0 to 90
Arm CPU 2 Arm Cortex-A15 Arm MHz (Max.) 1500 Co-processor(s) 2 Dual Arm Cortex-M4 CPU 32-bit Graphics acceleration 1 2D, 2 3D Display type 3 LCD, 1 HDMI Protocols Ethernet, ICSS, Profinet, Profibus Ethernet MAC 1-Port 10/100/1000, 2-Port 1Gb switch, 4-Port 10/100 PRU EMAC PCIe 2 PCIe Gen 2 Hardware accelerators 4 Embedded Vision Engines (EVE) Operating system Android, Linux, RTOS Security Cryptography, Debug security, Device identity, Isolation firewalls, Secure boot, Secure storage & programming, Software IP protection Rating Catalog Operating temperature range (C) -40 to 105, 0 to 90
FCBGA (ABC) 760
  • Dual Arm® Cortex®-A15 microprocessor subsystem
  • 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 2.5MB of on-chip L3 RAM
  • Two DDR3/DDR3L memory interface (EMIF) modules
    • Supports up to DDR3-1066
    • Up to 2GB supported per EMIF
  • 2x dual Arm® Cortex®-M4 co-processors (IPU1 and IPU2)
  • Up to four Embedded Vision Engines (EVEs)
  • IVA-HD subsystem
    • 4K @ 15fps encode and decode support for H.264 CODEC
    • Other CODECs are up to 1080p60
  • Display subsystem
    • Full-HD video (1920 × 1080p, 60 fps)
    • Multiple video input and video output
    • 2D and 3D graphics
    • Display controller with DMA engine and up to three pipelines
    • HDMI® encoder: HDMI 1.4a and DVI 1.0 compliant
  • 2x dual-core Programmable Real-Time Unit and Industrial Communication SubSystem (PRU-ICSS)
  • 2D-graphics accelerator (BB2D) subsystem
    • Vivante® GC320 core
  • Video Processing Engine (VPE)
  • Dual-core PowerVR® SGX544™ 3D GPU
  • Crypto hardware accelerators
    • AES, SHA, RNG, DES and 3DES
  • Three video Input Port (VIP) modules
  • 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
  • Ten configurable UART/IrDA/CIR modules
  • Four Multichannel Serial Peripheral Interfaces (McSPI)
  • Quad SPI interface (QSPI)
  • SATA gen2 interface
  • Eight Multichannel Audio Serial Port (McASP) modules
  • SuperSpeed USB 3.0 dual-role device
  • High-speed USB 2.0 dual-role device
  • 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
  • Dual Controller Area Network (DCAN) modules
    • CAN 2.0B protocol
  • Up to 247 General-Purpose I/O (GPIO) pins
  • Power, Reset, and Clock Management (PRCM)
  • On-chip debug with CTools technology
  • 28-nm CMOS technology
  • 23 mm × 23 mm, 0.8-mm pitch, 760-pin BGA (ABC)
  • Dual Arm® Cortex®-A15 microprocessor subsystem
  • 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 2.5MB of on-chip L3 RAM
  • Two DDR3/DDR3L memory interface (EMIF) modules
    • Supports up to DDR3-1066
    • Up to 2GB supported per EMIF
  • 2x dual Arm® Cortex®-M4 co-processors (IPU1 and IPU2)
  • Up to four Embedded Vision Engines (EVEs)
  • IVA-HD subsystem
    • 4K @ 15fps encode and decode support for H.264 CODEC
    • Other CODECs are up to 1080p60
  • Display subsystem
    • Full-HD video (1920 × 1080p, 60 fps)
    • Multiple video input and video output
    • 2D and 3D graphics
    • Display controller with DMA engine and up to three pipelines
    • HDMI® encoder: HDMI 1.4a and DVI 1.0 compliant
  • 2x dual-core Programmable Real-Time Unit and Industrial Communication SubSystem (PRU-ICSS)
  • 2D-graphics accelerator (BB2D) subsystem
    • Vivante® GC320 core
  • Video Processing Engine (VPE)
  • Dual-core PowerVR® SGX544™ 3D GPU
  • Crypto hardware accelerators
    • AES, SHA, RNG, DES and 3DES
  • Three video Input Port (VIP) modules
  • 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
  • Ten configurable UART/IrDA/CIR modules
  • Four Multichannel Serial Peripheral Interfaces (McSPI)
  • Quad SPI interface (QSPI)
  • SATA gen2 interface
  • Eight Multichannel Audio Serial Port (McASP) modules
  • SuperSpeed USB 3.0 dual-role device
  • High-speed USB 2.0 dual-role device
  • 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
  • Dual Controller Area Network (DCAN) modules
    • CAN 2.0B protocol
  • Up to 247 General-Purpose I/O (GPIO) pins
  • Power, Reset, and Clock Management (PRCM)
  • On-chip debug with CTools technology
  • 28-nm CMOS technology
  • 23 mm × 23 mm, 0.8-mm pitch, 760-pin BGA (ABC)

AM572x Sitara™ processors are Arm applications processors built to meet the intense processing needs of modern embedded products.

AM572x 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. Cryptographic acceleration is available in every AM572x device.

Programmability is provided by dual-core Arm® Cortex®-A15 RISC CPUs with Arm® Neon™ extension, and two TI C66x VLIW floating-point DSP core, and Vision AccelerationPac (with 4x EVEs). The Arm allows developers to keep control functions separate from other algorithms programmed on the DSPs and coprocessors, thus reducing the complexity of the system software.

Additionally, TI provides a complete set of development tools for the Arm and C66x DSP, including C compilers, a DSP assembly optimizer to simplify programming and scheduling, and a debugging interface for visibility into source code execution.

AM572x Sitara™ processors are Arm applications processors built to meet the intense processing needs of modern embedded products.

AM572x 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. Cryptographic acceleration is available in every AM572x device.

Programmability is provided by dual-core Arm® Cortex®-A15 RISC CPUs with Arm® Neon™ extension, and two TI C66x VLIW floating-point DSP core, and Vision AccelerationPac (with 4x EVEs). The Arm allows developers to keep control functions separate from other algorithms programmed on the DSPs and coprocessors, thus reducing the complexity of the system software.

Additionally, TI provides a complete set of development tools for the Arm and C66x DSP, including C compilers, a DSP assembly optimizer to simplify programming and scheduling, and a debugging interface for visibility into source code execution.

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Technical documentation

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Type Title Date
* Data sheet AM572x Sitara™ Processors Silicon Revision 2.0 datasheet (Rev. G) 25 Nov 2019
* Errata AM572x Sitara Processors Silicon Errata (Silicon Revision 2.0, 1.1) (Rev. M) 08 Jan 2021
Application note Industrial Communication Protocols Supported on Sitara™ Processors (Rev. D) 30 Sep 2021
Application note PRU-ICSS Feature Comparison (Rev. E) 17 Aug 2021
Application note Adding Real-Time Communication to Linux (Rev. A) 07 May 2021
Application note Ethernet PHY Configuration Using MDIO for Industrial Applications (Rev. A) 07 May 2021
Application note Sitara Processor Power Distribution Networks: Implementation and Analysis (Rev. D) 15 Feb 2021
White paper Time sensitive networking for industrial automation (Rev. B) 20 Jan 2021
More literature From Start to Finish: A Product Development Roadmap for Sitara™ Processors 16 Dec 2020
E-book Ein Techniker-Leitfaden für Industrieroboter-Designs 25 Mar 2020
E-book E-book: An engineer’s guide to industrial robot designs 12 Feb 2020
Application note AM57x, DRA7x, and TDA2x EMIF Tools (Rev. E) 06 Jan 2020
Technical article Maximizing machine-learning inference at the edge 02 Dec 2019
More literature AM572x Industrial Development Kit Quick Start Guide (Rev. B) 08 Oct 2019
User guide AM572x Industrial Development Kit (IDK) Evaluation Module (EVM) Hardware UG (Rev. E) 11 Sep 2019
Application note AM57x Schematic Checklist (Rev. B) 09 Jul 2019
User guide AM572x Sitara Processor Technical Reference Manual (Rev. L) 05 Jul 2019
White paper Sitara Processor Security (Rev. D) 09 May 2019
Application note Calculating Useful Lifetimes of Embedded Processors (Rev. B) 07 May 2019
Application note AM571x/AM572x/AM574x PCB Escape Routing (Rev. A) 19 Mar 2019
White paper Virtualization for embedded industrial systems (Rev. B) 07 Mar 2019
White paper Bringing deep learning to embedded systems (Rev. A) 26 Feb 2019
Application note Common EOS pitfalls in board design 13 Feb 2019
Application note AM57xx Hardware Design Guide 25 Jan 2019
Application note PRU-ICSS Getting Started Guide on TI-RTOS (Rev. A) 18 Jan 2019
Application note McASP Design Guide - Tips, Tricks, and Practical Examples 10 Jan 2019
Application note PRU Read Latencies (Rev. A) 21 Dec 2018
Application note AM572x Thermal Considerations (Rev. A) 13 Dec 2018
Application note PRU-ICSS Getting Starting Guide on Linux (Rev. A) 10 Dec 2018
White paper Ensuring real-time predictability (Rev. B) 04 Dec 2018
Technical article Bringing the next evolution of machine learning to the edge 27 Nov 2018
Application note PRU-ICSS EtherCAT Slave Troubleshooting Guide 07 Nov 2018
Application note PRU-ICSS / PRU_ICSSG Migration Guide 05 Nov 2018
White paper Secure Boot on embedded Sitara™ processors (Rev. A) 13 Oct 2018
Application note High-Speed Interface Layout Guidelines (Rev. H) 11 Oct 2018
User guide How-To and Troubleshooting Guide for PRU-ICSS PROFIBUS 24 Sep 2018
Technical article How quality assurance on the Processor SDK can improve software scalability 22 Aug 2018
Application note MMC DLL Tuning (Rev. B) 31 Jul 2018
White paper Designing professional audio mixers for every scenario 28 Jun 2018
Application note AM574x, AM572x, and AM571x Compatibility Guide (Rev. E) 26 Apr 2018
Application note HSR/PRP Solutions on Sitara Processors for Grid Substation Communication 17 Apr 2018
User guide TPS659037 user's guide to power AM574x, AM572x, and AM571x (Rev. F) 16 Mar 2018
User guide PRU Assembly Instruction User Guide 16 Feb 2018
Application note 2D Object Recognition for Industrial Machine Vision with Processor SDK on Sitara 07 Feb 2018
Application note AM57xx BGA PCB Design 25 Aug 2017
Application note Thermal Design Guide for DSP and Arm Application Processors (Rev. B) 14 Aug 2017
Application note IODELAY Application Note for AM57xx Devices (Rev. A) 03 Aug 2017
Application note Processor-SDK RTOS Power Management and Measurement 02 Aug 2017
Application note AM572x Power Estimation Tool 19 Jul 2017
Application note Processor SDK RTOS Audio Benchmark Starter Kit 12 Apr 2017
Application note AM572x Power Consumption Summary 27 Mar 2017
Application note DSPLIB for Processor SDK RTOS 04 Nov 2016
Application note AM57x Processor SDK Linux: Customization of Multicore Application to Run on a Ne 06 Oct 2016
Application note Keystone EDMA FAQ 01 Sep 2016
White paper Enable security and amp up chip performance w/ hardware-accelerated cryptograpy (Rev. A) 11 Aug 2016
Technical article Clove: Low-Power video solutions based on Sitara™ AM57x processors 21 Jul 2016
More literature Sitara™ AM5x processor with ARM® Cortex™-A15 core (Rev. A) 22 Jan 2016
Application note TI DSP Benchmarking 13 Jan 2016
Application note AM572x GP EVM Power Simulations 08 Oct 2015
Application note Plastic Ball Grid Array [PBGA] Application Note (Rev. B) 13 Aug 2015
White paper TI’s processors leading the way in embedded analytics 03 Mar 2015
White paper Mainline Linux™ ensures stability and innovation 27 Mar 2014
White paper Scalable Solutions for HMI 21 Nov 2013
White paper Linaro Speeds Development in TI Linux SDKs 27 Aug 2013
White paper The Yocto Project:Changing the way embedded Linux software solutions are develop 14 Mar 2013
Application note AN-1281 Bumped Die (Flip Chip) Packages (Rev. A) 01 May 2004

Design & development

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

Evaluation board

TMDSIDK572 — AM572x Industrial Development Kit (IDK)

The AM5729 Industrial Development Kit (IDK) is a development platform for evaluating the industrial communication and control capabilities of Sitara AM572x processors for applications in factory automation, drives, robotics, grid infrastructure, machine learning and more.  This platform is (...)

In stock
Limit: 1
Evaluation board

TMDXIDK57X-LCD — AM57x IDK LCD Kit

The AM57x industrial development kit (IDK) LCD screen can be used with AM57x IDKs to add touch and display functions for the evaluation of HMI, Panel PC, and other use cases requiring high resolution displays. The AM57x IDK LCD Screen is a 10.1" display with 1080p resolution (1920x1200) and (...)

In stock
Limit: 1
Evaluation board

BEAGLE-3P-BBONE-AI — BeagleBone® AI AM5729 development board for embedded Artificial Intelligence

What is BeagleBone® AI?

Built on the proven BeagleBoard.org® open source Linux approach, BeagleBone® AI fills the gap between small SBCs and more powerful industrial computers. Based on the Texas Instruments, Sitara™ AM5729 processor, developers have access to a highly integrated and (...)

From: BeagleBoard.org Foundation
Evaluation board

JN-3P-SITARASOMS — Jiang-niu.com Sitara SOMs

MINI5728 is an embedded system solution developed by Jiang-niu to help customers develop industrial applications like industrial internet, machine vision and industrial automation control based on AM5728 processor. AM5728 processors are the newest multimedia processor SOC in TI's Sitara™ (...)
From: Jiang-Niu
Evaluation board

PHYTC-3P-PHYCORE-AM57X — PHYTEC phyCORE-AM57x system on module

The phyCORE®-AM57x SOM supports the Texas Instruments Sitara™ AM57x single- and dual-core, pin compatible, Arm® Cortex™-A15 based solutions. Best-in-class CPU performance is complemented by high performance 2D/3D graphics, advanced video accelerator supporting 1080p decode, and (...)

From: PHYTEC
Development kit

PHYTC-3P-SOMS — PHYTEC system on modules for TI ARM-based Processors and Microcontrollers

PHYTEC is an industry-leading provider and integrator of System on Modules (SOMs), embedded middleware and design services that enable customers to bring complex products quickly and easily to market. They guide customers from design to production utilizing deep domain expertise; high-quality (...)

From: PHYTEC
Software development kit (SDK)

PROCESSOR-SDK-AM57X — Processor SDK for AM57x Sitara Processors - Linux, TI-RTOS and Android Support

Processor SDK (Software Development Kit) is a unified software platform for TI embedded processors providing easy setup and fast out-of-the-box access to benchmarks and demos. All releases of Processor SDK are consistent across TI’s broad portfolio, allowing developers to seamlessly reuse and (...)
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
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 (...)
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 (...)
Bill of materials (BOM)

AM572x Industrial Development Kit (IDK) Bill of Materials

SPRR413.ZIP (33 KB)
Package Pins Download
FCBGA (ABC) 760 View options

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