16TR RFSOC + X86 CPU Heterogeneous Multi-Core Analog-Digital Hybrid Processing System
This heterogeneous platform is implemented using the X86 Kontron COMe-mRP10 module combined with the RFSOC 49DR. The two components are interconnected via PCIe GEN4 and a network interface. The X86 platform supports software architectures such as MATLAB, LabVIEW, and Qt, enabling users to easily deploy various applications directly. The platform features a rich set of peripheral interfaces, including DP display, USB 3.0, and Gigabit Ethernet. It also provides a spectrum analyzer and oscilloscope example implemented based on LabVIEW. This example demonstrates multi-channel synchronous data acquisition, with the acquired data transmitted over Ethernet to the COMe-MRP10. The COMe-mRP10 runs a Windows operating system, allowing the data analysis software to graphically display time-domain and frequency-domain waveforms of the signals. The X86 platform can generate customized waveform data and transmit it via the RFSOC. This platform is well-suited for applications in scenarios such as 16T16R MIMO-based communications and integrated sensing-and-communication systems.
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Zynq UltraScale+ RFSOC Development Board
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- Commodity name: 16TR RFSOC + X86 CPU Heterogeneous Multi-Core Analog-Digital Hybrid Processing System
This heterogeneous platform is implemented using the X86 Kontron COMe-mRP10 module combined with the RFSOC 49DR. The two components are interconnected via PCIe GEN4 and a network interface. The X86 platform supports software architectures such as MATLAB, LabVIEW, and Qt, enabling users to easily deploy various applications directly. The platform features a rich set of peripheral interfaces, including DP display, USB 3.0, and Gigabit Ethernet. It also provides a spectrum analyzer and oscilloscope example implemented based on LabVIEW. This example demonstrates multi-channel synchronous data acquisition, with the acquired data transmitted over Ethernet to the COMe-MRP10. The COMe-mRP10 runs a Windows operating system, allowing the data analysis software to graphically display time-domain and frequency-domain waveforms of the signals. The X86 platform can generate customized waveform data and transmit it via the RFSOC. This platform is well-suited for applications in scenarios such as 16T16R MIMO-based communications and integrated sensing-and-communication systems.
This heterogeneous platform is implemented using the X86 Kontron COMe-mRP10 module combined with the RFSOC 49DR. The two components are interconnected via PCIe GEN4 and a network interface. The X86 platform supports software architectures such as MATLAB, LabVIEW, and Qt, enabling users to easily deploy a wide variety of applications. The platform features a rich set of peripheral interfaces, including DP display, USB 3.0, and Gigabit Ethernet. It also provides a spectrum analyzer and oscilloscope example implemented in LabVIEW. This example demonstrates multi-channel synchronous data acquisition, with the acquired data transmitted over Ethernet to the COMe-MRP10. The COMe-mRP10 runs on the Windows operating system, allowing the data analysis software to graphically display time-domain and frequency-domain waveforms of the signals. The X86 platform can generate customized waveform data, which is then transmitted via the RFSOC. This platform is well-suited for applications such as communications and integrated sensing and communication scenarios based on a 16T16R MIMO architecture.
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