Next-Gen Aerospace and Defense Solutions with High-Performance FPGAs boards and solutions
High-performance FPGAs have become pivotal in advancing military technology, offering unparalleled capabilities for defense applications. As military operations increasingly rely on real-time data processing, secure communications, and sophisticated signal processing, FPGAs provide a flexible, high-performance, and long lifecycle solution
Software Defined Radio
Software Defined Radio (SDR) is a transformative technology that replaces traditional analog radio components with digital signal processing controlled by software.
Two defining characteristics of the RFSoC are the extremely high sampling rates that it can support up to multiple Gsps and the wide analogue bandwidths that its RF-ADCs can capture. Similarly, the RF-DACs can generate extremely wideband signal. In the context of SDR design, this is incredibly powerful; an SDR can convert between the digital and analogue domains at RF frequencies, enabling a large set of wireless standards and technologies to be supported using an ‘almost all digital radio” architecture
Radar Systems
Radar systems demand high-performance computing to manage real-time signal acquisition, pulse processing, beamforming, tracking, and target classification. FPGA and MPSoC based platforms provide the low-latency parallel processing, high-speed transceivers, and advanced DSP resources needed to efficiently handle complex radar workloads. Their scalable and reconfigurable architecture supports evolving algorithms, multi-sensor fusion, and enhanced situational awareness, making them ideal for aerospace, defense, marine navigation, surveillance, and industrial radar applications.
Drones / UAVs
Drones and UAVs demand powerful, low-latency computing platforms to manage real-time sensing, perception, autonomous navigation, and mission planning. High-performance FPGA SoMs and Agilex based boards provide the ideal mix of ARM compute and FPGA acceleration to enable advanced capabilities such as multi-sensor fusion, AI-driven object detection, image stabilization, secure communication links, and flight control logic. With high speed interfaces, power profiles, and scalable architectures, these platforms deliver the performance required for aerial mapping, inspection, surveillance, agriculture, defense, and next generation autonomous UAV operations.
EW
Electronic warfare systems demand ultra high performance signal processing to detect, analyze, jam or exploit adversary transmissions in real time. RFSoC based system on modules combine multi ADCs/DACs, high-speed transceivers, FPGA fabric and ARM processing to execute complex EW tasks like wide band spectrum scanning, threat identification, waveform generation, and adaptive counter measures. With low latency, multi channel support and scalable architecture, these platforms excel in airborne, ground and naval EW deployments where resilience, adaptability and rapid algorithm.
