JAJSJ32C December 2019 – September 2023 AM6526 , AM6528 , AM6546 , AM6548
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AM654x and AM652x Sitara™ processors are Arm applications processors built to meet the complex processing needs of modern industry 4.0 embedded products.
The AM654x and AM652x devices combine four or two Arm Cortex-A53 cores with a dual Cortex-R5F MCU subsystem which includes features intended to help customers achieve their functional safety goals for their end products and three Gigabit industrial communications subsystems (PRU_ICSSG) to create a SoC capable of high-performance industrial controls with industrial connectivity and processing for functional safety applications. AM65xx is currently undergoing assessment to be certified by TÜV SÜD according to IEC 61508.
The four A53 cores are arranged in two dual-core clusters with shared L2 memory to create two processing channels. Extensive ECC is included on on-chip memory, peripherals, and interconnect for reliability. The SoC as a whole includes features intended to help customers design systems that can achieve their functional safety goals (assessment pending with TÜV SÜD). Cryptographic acceleration and secure boot are available on AM654x and AM652x devices in addition to granular firewalls managed by the DMSC.
Programmability is provided by the quad-core Arm Cortex-A53 RISC CPUs with Neon extension, and the dual Cortex-R5F MCU subsystem is available for general purpose use as two cores or it can be used in lockstep to help meet the needs of functional safety applications. The PRU_ICSSG subsystems can be used to provide up to six ports of industrial Ethernet such as Profinet IRT, TSN, or EtherCAT® (among many others), or they can be used for standard Gigabit Ethernet connectivity.
TI provides a complete set of software and development tools for the Arm cores including Processor SDK Linux, Linux-RT, RTOS, and Android as well as C compilers and a debugging interface for visibility into source code execution. Applicable safety documentation will be made available to assist customers in developing their functional safety related systems.
For more information on features, subsystems, and architecture of superset device System on Chip (SoC), see the device TRM.