Electronic Warfare
Case Study
Enable real-time detection, analysis, and countermeasures against complex RF threats with Zynq UltraScale+ RFSoC SoM. This case study explains the integrated architecture combining high speed ADCs/DACs, FPGA fabric, and Arm processing cores supports Radar Warning Receiver, DRFM jammer, and SIGINT/ELINT functions on a single scalable platform.
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Case Study
Modern electronic warfare systems demand wideband RF capture, ultra-low latency, and real-time adaptability. This case study shows how iWave RFSoC SoM, built on AMD Zynq™ UltraScale+™ RFSoC, enable direct RF sampling, deterministic processing, and production-ready scalability for signal interception, classification, and agile jamming
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Article
Choosing the right RFSoC doesn’t have to be complex. This Article helps you select the ideal iWave’s Zynq™ UltraScale+™ RFSoC powered by AMD and comparing variants, SD FEC features, and application trade offs showing how iWave simplifies RF and wireless system design with production-ready SoMs and RF expertise.
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Article
Software Defined Radio demands flexibility, wideband performance, and low latency. This article explains how AMD Zynq™ UltraScale+™ RFSoC technology simplifies SDR architecture by integrating RF ADCs, DACs, FPGA, and processors, how iWave’s RFSoC SoMs and PCIe platforms accelerate high performance SDR development.
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Article
This demonstration shows how a JESD204C-based high-speed ADC solution using AMD Zynq™ UltraScale+™ ZU19EG MPSoC and Texas Instruments ADC12QJ1600EVM, integrated on iWave iW-RainboW-G35D DevKit, enables low-latency, real-time data acquisition for RF, radar, 5G, and instrumentation applications.
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Article
This article demonstrates how Vitis™ AI NPU runs on AMD Versal™ AI Edge VE2302 platforms from iWave, enabling real-time, low-latency object detection. Discover how FPGA-accelerated AI inference, efficient dataflow, and production-ready SoMs simplify Edge AI deployment across vision, industrial, and autonomous applications.
