The ROM-5620 SMARC 2.0/2.1 Computer-on-Module is powered by NXP i.MX 8X SoC which includes two to four Arm Cortex-A35 cores for mid-range automotive and industrial market segments, one Cortex-M4F core for real-time processing, and one Tensilica Hi-Fi 4 DSP for efficient audio and voice codec execution. It also escalates its graphic performance by Vivante GC7000 Lite, 4K H.265 capable decoder, and dual 1080P60 display controller.
ROM-5620 is paired with ROM-DB5901 Evaluation Carrier Board for faster end product peripheral integration and time-to-market. The reference schematics and layout checklists documentations for carrier board development will be provided along with the open-sourced Linux BSP, test utilities, hardware design utilities and reference drivers.
- NXP i.MX 8 XPlus processor with dual or quad ARM Cortex A35 cores
- 1 x Arm Cortex-M4F core
- Tensilica® HiFi 4 DSP
- Onboard 2GB LPDDR4 memory and eMMC 16GB
- 2x LVDS, 2x 4-Lane MIPI DSI
- Support OpenGL ES 3.1/3.0/2.0/1.1 and Open CL 1.2, and Vulkan hardware accelerators
- Supports 4K hardware decode engine
- Supports Linux and Android BSP
EMAC is a global leader in system on module and carrier board embedded systems. The System on Module (SoM) is an ideal alternative to custom engineering. With the SoM approach you get the best of aspects of both buying an Off-The-Shelf Embedded Single Board Computer (SBC) and a Custom Engineered solution. With Off-The-Shelf embedded components such as a generic carrier board and SOM module, it is possible to start development on your software applications before the custom carrier board is complete; thus offering a reduced time to market for your system. A System on Module (SoM) is comprised of a small processor module with CPU bus accessibility and standard I/O functionality. The SoM module does not have any connectorization and is designed to be plugged into a Carrier Board.
Interested in custom engineering? Learn more.
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