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The MitySOM-AM62 family of system-on-modules features the Texas Instruments Sitara AM62x Processor. The module includes (optional) eMMC FLASH, (optional) Octal or Quad SPI NOR FLASH, and DDR4 RAM memory subsystems. A MitySOM-AM62 provides a complete and flexible CPU infrastructure for highly integrated embedded systems.

The onboard AM62x processor provides up to a Quad Core Cortex-A53 64-bit RISC processor with a NEON SIMD coprocessor. This microprocessor unit (MPU) can run a rich set of real-time operating systems containing software applications programming interfaces (APIs) expected by modern system designers. The ARM architecture supports several operating systems, including Linux and Android.

In addition to the Cortex-A53, the Sitara AM62x family also offers a Single Core Arm Cortex-M4F MCU at up to 400 MHz as well as a dual core 32 bit Programmable Real-Time Units (PRUs) that may be clocked at up to 333 MHz. The Cortex-M4F and the PRUs are RISC processors that run independently of the main Cortex-A53 MPU complex and have access to all the on-chip peripherals as well as all external memory. These can be used for any purpose.

The MitySOM-AM62A family of system-on-modules features the Texas Instruments Sitara AM62Ax Processor. The module includes (optional) eMMC FLASH, (optional) Octal or Quad SPI NOR FLASH, and LPDDR4 RAM memory subsystems. A MitySOM-AM62 provides a complete and flexible CPU infrastructure for highly integrated embedded systems.

The onboard AM62Ax processor provides up to a Quad Core Cortex-A53 64-bit RISC processor with a NEON SIMD coprocessor. This microprocessor unit (MPU) can run a rich set of real-time operating systems containing software applications programming interfaces (APIs) expected by modern system designers. The ARM architecture supports several operating systems, including Linux.

In addition to the Cortex-A53, the AM62Ax family also offers a Single Core Arm Cortex-R5F MCU at up to 800 MHz as well as a deep learning accelerator engine that is based on a single C7x DSP core. The Cortex-R5F runs independently of the main Cortex-A53 MPU complex and has access to all the on-chip peripherals as well as all external memory and can be used for any purpose. Typical applications for the R5F might include managing an EtherCAT master interface, providing safety critical software operation or real-time handling of attached peripherals, etc.

The deep learning accelerator provides a C7x floating point DSP at up to 40 GFLOPS paired with a Matrix Multiple Accelerator that supports up to 2 TOPS (8b) for artificial intelligence (AI) applications.  Coupled with on-chip Vision Processing Accelerators and camera Image Signal Processing, the AM62Ax processor is a good fit for edge AI applications.

The MitySOM-C10L and MitySOM-C10G series of highly configurable, small form-factor System-on-Modules features an Intel / Altera Cyclone 10 LP (Low Power) or Cyclone 10 GX field programmable gate array (FPGA) and include on-board power supplies, NOR FLASH and a HyperRAM memory subsystems. The MitySOM-C10LP/GX delivers a low power, flexible, low cost FPGA solution for rapid development and deployment of new designs. Using a NIOS II Softcore processor, the MitySOM-C10LP/GX provides a complete and flexible CPU infrastructure for a low cost integrated embedded system.

The MitySOM-C10L and MitySOM-C10G have been designed to support several upgrade options. These include various FPGA densities, speed grades, and operating temperature specifications (including commercial and industrial temperature ranges).

The MitySOM-AM57F is a highly configurable system on module that features a Texas Instruments AM57xx series 1.5 GHz Sitara Processor tightly integrated with the (optional) Xilinx Artix-7 Field Programmable Gate Array (FPGA), NOR FLASH, and DDR3 RAM memory subsystems. The design of the MitySOM-AM57F allows end-users the capability to develop programs/logic images for all of the compute elements on the TI AM57xx as well as for the FPGA. The MitySOM-AM57F provides a complete and flexible digital processing infrastructure necessary for the most demanding embedded applications development.