The iWave Agilex™ 7 SOSA 3U VPX Plug-in Module is a rugged, high-performance compute platform designed for mission-critical and defense-grade applications. Powered by the Altera Agilex™ 7 R24C SoC FPGA (AGF027), the board integrates a quad-core ARM Cortex-A53 processor and up to 2,692K logic elements, making it ideal for data-intensive tasks including sensor fusion, radar processing, and secure communication.
The plug-in module is equipped with 8GB HPS DDR4, 8GB FPGA DDR4 with ECC, and 144MB QDR-IV memory, ensuring real-time data processing and low-latency response. Rich front-panel connectivity includes USB 2.0, UART, and 1G Ethernet, while the backplane offers high-speed transceivers supporting up to 25G Ethernet and PCIe Gen3 interfaces. With support for multiple I/O standards and an MT Ferrule optical interface (28.125Gbps), the module is well-suited for SWaP-optimized deployments.
Designed in the 3U-VPX form factor (160mm x 100mm), the solutio...
The iWave Agilex™ 7 SOSA 3U VPX Plug-in Module is a rugged, high-performance compute platform designed for mission-critical and defense-grade applications. Powered by the Altera Agilex™ 7 R24C SoC FPGA (AGF027), the board integrates a quad-core ARM Cortex-A53 processor and up to 2,692K logic elements, making it ideal for data-intensive tasks including sensor fusion, radar processing, and secure communication.
The plug-in module is equipped with 8GB HPS DDR4, 8GB FPGA DDR4 with ECC, and 144MB QDR-IV memory, ensuring real-time data processing and low-latency response. Rich front-panel connectivity includes USB 2.0, UART, and 1G Ethernet, while the backplane offers high-speed transceivers supporting up to 25G Ethernet and PCIe Gen3 interfaces. With support for multiple I/O standards and an MT Ferrule optical interface (28.125Gbps), the module is well-suited for SWaP-optimized deployments.
Designed in the 3U-VPX form factor (160mm x 100mm), the solution includes features such as temperature sensors, reset switches, and a clock synthesizer with 10 outputs. Built to withstand harsh environments, it is an ideal choice for aerospace, defense, and industrial systems requiring both processing density and reliable connectivity.