Mouser signs worldwide agreement with iWave for SoMs

Mouser Electronics now stocks iWave’s system on modules (SoMs) which are based on Xilinx, NXP Semiconductors and Intel PSG processors and which are intended for use in industrial, automotive, medical, imaging, networking and AI applications.

The iWave portfolio includes the Xilinx ZU19/17/11 Zynq UltraScale+ MPSoC SoMs based on the Zynq UltraScale+ multiprocessor SoCs (MPSoCs). They feature FPGA fabric and six heterogeneous Arm processor cores (four 64-bit Arm Cortex-A53 and two 32-bit Arm Cortex-R5 cores).

The SoMs’ processing system and processing logic functionality is claimed to offer improved security, robustness and a level of memory and transceiver performance that makes them suitable for demanding applications such as 4K video, deep neural AI and machine learning, automotive imaging radar, and high-speed networking.

The distributor also stocks the ZU19/17/11 Zynq UltraScale+ MPSoC development kit, which includes the Zynq Ultrascale+ MPSoC SoM and a carrier card with support for FMC, FMC+, QSFP, HDMI 2.0 input and output, 12G SDI I/O, USB Type-C and Gigabit Ethernet.

iWave’s NXP portfolio includes the i.MX 8QuadMax SMARC SoMs, based on the i.MX 8QuadMax applications processors for multimedia processing in automotive, medical and industrial applications. The integrated SMARC R2.0-compatible module incorporates the i.MX 8QuadMax’s four Arm Cortex-A53 cores, two Cortex-M4F cores, and two Cortex-A72 cores, as well as a HiFi 4 DSP core and two graphics processing units (GPUs). Content can be implemented across four HD screens or one 4K screen for multiple graphics requirements operating in harsh environments. There is also the i.MX 8QM/QP SMARC development kit which includes the SoM and a SMARC carrier board with all the necessary connectors, displays, and I/Os.

Based on Intel’s Arria 10 SX family FPGAs with dual Arm Cortex-A9 cores and up to 660K logic elements, iWave also offers Arria 10 SoC SoMs with 32-bit DDR4 memory support for HPS with ECC and 64-bit DDR4 support for FPGAs. The SoM and associated development platform are designed to help engineers develop FPGA-based designs in applications such as test and measurement, industrial controls, diagnostic medical imaging and wireless infrastructure.