Radio Telescope
Article
Modern radio telescopes demand nanosecond-level timing and phase coherence across massive antenna arrays. This article explains why Multi-Tile Synchronization (MTS) in AMD Zynq™ UltraScale+™ RFSoC is essential for accurate beamforming and correlation—and how iWave delivers synchronized RFSoC platforms and high-speed networking solutions for next-generation radio astronomy backends.
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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
Next-generation radio telescopes demand deterministic latency and massive data throughput. This article explains how integrating SmartNICs with AMD RFSoC-based front ends enables edge digitization, preprocessing, and compression—reducing backend load and transport costs. Learn how iWave delivers scalable, low-latency RF-ADC pipelines ready for 400G/800G radio astronomy networks.
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Article
Next-generation radio telescopes generate multi-terabit data streams that exceed the limits of 100G networks. This article explains how iWave FPGA System on Modules, built on platforms such as AMD Versal™ and Agilex™, enable deterministic, low-latency 400G/800G Ethernet pipelines powering scalable, synchronized, and future-ready radio astronomy backends.
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Article
Modern radio telescopes demand wideband digitization, deterministic timing, and real-time processing at scale. This article explains how iWave RFSoC System on Modules, powered by AMD Zynq™ UltraScale+™ RFSoC, simplify backend receiver design by integrating RF ADCs, FPGA DSP, multi-core processing, and precision timing into a compact, scalable platform.
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Next-generation radio telescopes demand wideband RF capture and real-time processing. This solution highlights how iWave RFSoC System on Modules, powered by AMD Zynq™ UltraScale+™ RFSoC, enable direct RF sampling with up to 16 ADCs and DACs simplifying backend receiver design while delivering scalable, high-performance radio astronomy systems.
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Video
Get a first look at the ZU49DR RFSoC System on Module Evaluation Kit from iWave, powered by AMD Zynq™ UltraScale+™ RFSoC. This video walks through the kit contents, hardware features, and evaluation-ready setup helping engineers quickly prototype wideband RF, SDR, radar, and wireless applications.
Video
This video demonstrates DAC-to-ADC loopback validation using the RF Analyzer on AMD ZU49DR RFSoC, hosted on iWave RFSoC SoM. Learn how to configure RF tiles, capture loopback signals, and verify synchronization and signal integrity—critical for SDR, radar, and wideband RF system bring-up.
Video
Discover how the Analog Devices AD9361 RF Transceiver integrated seamlessly with iWave’s System on Module powered by AMD Versal™ AI Edge FPGA and Zynq™ UltraScale+™ MPSoC Development Kits. This video demonstrates real-time RF signal generation, enabling rapid prototyping for SDR applications.
