AM5718 (ACTIVE)

Sitara Processor: ARM Cortex-A15 & DSP, Multimedia

Sitara Processor: ARM Cortex-A15 & DSP, Multimedia - AM5718
 

Description

AM571x Sitara ARM applications processors are built to meet the intense processing needs of the modern embedded products.

AM571x 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 a single-core ARM Cortex-A15 RISC CPU with Neon™ extensions and a TI C66x VLIW floating-point DSP core. The ARM processor lets developers keep control functions separate from vision 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 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.

The AM571x Sitara ARM processor family is qualified according to the AEC-Q100 Standard.

Features

  • ARM® Cortex®-A15 Microprocessor Subsystem
  • 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
  • DDR3/DDR3L Memory Interface (EMIF) Module
    • Supports up to DDR3-1333 (667 MHz)
    • Up to 2GB across single chip select
  • Dual ARM® Cortex®-M4 Coprocessors
  • IVA-HD Subsystem
  • 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)
  • Accelerator (BB2D) Subsystem
    • Vivante™ GC320 Core
  • Video Processing Engine (VPE)
  • Available Single-Core PowerVR® SGX544 3D GPU
  • One Video Input Port (VIP) Module
    • Support for up to Four Multiplexed Input Ports
  • General-Purpose Memory Controller (GPMC)
  • Enhanced Direct Memory Access (EDMA) Controller
  • Ethernet Subsystem
  • Sixteen 32-Bit General-Purpose Timers
  • 32-Bit MPU Watchdog Timer
  • Five High-Speed 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
  • MIPI® CSI-2 Camera Serial Interface
  • Up to 215 General-Purpose I/O (GPIO) Pins
  • Power, Reset, and Clock Management
  • On-Chip Debug With CTools Technology
  • 28-nm CMOS Technology
  • 23 mm × 23 mm, 0.8-mm Pitch, 760-Pin BGA (ABC)

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Parametrics Compare all products in AM57x

 
Co-Processor(s)
ARM MHz (Max.)
Camera
Graphics Acceleration
Serial I/O
DRAM
Industrial Protocols
PCI/PCIe
Operating Temperature Range (C)
EMAC
Security Enabler
Approx. Price (US$)
AM5718 AM5706 AM5708 AM5716 AM5726 AM5728 AM5748
Arm Cortex-M4
PRU-ICSS   
Arm Cortex-M4
PRU-ICSS   
Arm Cortex-M4
PRU-ICSS   
Arm Cortex-M4
PRU-ICSS   
Arm Cortex-M4
PRU-ICSS   
Arm Cortex-M4
PRU-ICSS   
Arm Cortex-M4
PRU-ICSS   
1500    500
1000   
1000    500
1500   
1500    1500    1500   
Parallel    Parallel    Parallel    Parallel    Parallel    Parallel    Parallel   
1 2D
1 3D   
N/A    1 2D
1 3D   
N/A    N/A    1 2D
2 3D   
1 2D
2 3D   
CAN
I2C
SPI
UART
USB   
CAN
I2C
SPI
UART
USB   
CAN
I2C
SPI
UART
USB   
CAN
I2C
SPI
UART
USB   
CAN
I2C
SPI
UART
USB   
CAN
I2C
SPI
UART
USB   
CAN
I2C
SPI
UART
USB   
DDR3
DDR3L   
DDR3
DDR3L   
DDR3
DDR3L   
DDR3
DDR3L   
DDR3
DDR3L   
DDR3
DDR3L   
DDR3
DDR3L   
EtherCAT
EtherNet/IP
POWERLINK
PROFIBUS
PROFINET RT/IRT
SERCOS III   
EtherCAT
EtherNet/IP
POWERLINK
PROFIBUS
PROFINET RT/IRT
SERCOS III   
EtherCAT
EtherNet/IP
POWERLINK
PROFIBUS
PROFINET RT/IRT
SERCOS III   
EtherCAT
EtherNet/IP
POWERLINK
PROFIBUS
PROFINET RT/IRT
SERCOS III   
EtherCAT
EtherNet/IP
POWERLINK
PROFIBUS
PROFINET RT/IRT
SERCOS III   
EtherCAT
EtherNet/IP
POWERLINK
PROFIBUS
PROFINET RT/IRT
SERCOS III   
EtherCAT
EtherNet/IP
POWERLINK
PROFIBUS
PROFINET RT/IRT
SERCOS III   
2 PCIe Gen 2    2 PCIe Gen 2    2 PCIe Gen 2    2 PCIe Gen 2    2 PCIe Gen 2    2 PCIe Gen 2    2 PCIe Gen 2   
-40 to 105
-40 to 125
0 to 90   
-40 to 105    -40 to 105    -40 to 105
-40 to 125
0 to 90   
-40 to 105
0 to 90   
-40 to 105
0 to 90   
-40 to 105   
10/100/1000
2-Port 1Gb Switch
4-Port 10/100 PRU EMAC
6-Port 10/100 PRU EMAC   
10/100/1000
2-Port 1Gb Switch
4-Port 10/100 PRU EMAC   
10/100/1000
2-Port 1Gb Switch
4-Port 10/100 PRU EMAC   
10/100/1000
2-Port 1Gb Switch
4-Port 10/100 PRU EMAC
6-Port 10/100 PRU EMAC   
10/100/1000
2-Port 1Gb Switch
4-Port 10/100 PRU EMAC   
10/100/1000
2-Port 1Gb Switch
4-Port 10/100 PRU EMAC   
10/100/1000
2-Port 1Gb Switch
4-Port 10/100 PRU EMAC
6-Port 10/100 PRU EMAC   
Cryptographic acceleration
Debug security
Device identity
External memory protection
Initial secure programming
Secure boot
Secure storage
Software IP protection
Trusted execution environment   
Cryptographic acceleration
Debug security
Device identity
External memory protection
Initial secure programming
Secure boot
Secure storage
Software IP protection
Trusted execution environment   
Cryptographic acceleration
Debug security
Device identity
External memory protection
Initial secure programming
Secure boot
Secure storage
Software IP protection
Trusted execution environment   
Cryptographic acceleration
Debug security
Device identity
External memory protection
Initial secure programming
Secure boot
Secure storage
Software IP protection
Trusted execution environment   
Cryptographic acceleration
Debug security
Device identity
External memory protection
Initial secure programming
Secure boot
Secure storage
Software IP protection
Trusted execution environment   
Cryptographic acceleration
Debug security
Device identity
External memory protection
Initial secure programming
Secure boot
Secure storage
Software IP protection
Trusted execution environment   
Cryptographic acceleration
Debug security
Device identity
External memory protection
Initial secure programming
Secure boot
Secure storage
Software IP protection
Trusted execution environment   
30.05 | 1ku        22.33 | 1ku    37.13 | 1ku    40.47 | 1ku