使用MATLAB®和Simulink®to develop, deploy, and verify wireless systems designs on Xilinx®Zynq®Ultrascale+™RFSOC设备。
- Characterize RF performance with data streaming between hardware and MATLAB and Simulink.
- Leverage standards-compliant (5G and LTE) and custom waveforms.
- Model and simulate hardware architectures and algorithms.
- Deploy systems to hardware using automatic HDL code and C code generation.
- 调试和验证在连接到MATLAB和SIMULINK测试环境的硬件上运行的算法。万博1manbetx
Using MATLAB for System Development on Zynq UltraScale+ RFSoC
Verify System RF Performance with Streaming Data
使用MATLAB和Simulink to stream standards-compliant 5G, LTE, and custom waveforms to and from hardware. Measure results in MATLAB to characterize RF performance for systems such as the Avnet®Zynq UltraScale+ RFSoC Development Kit with Qorvo RF Front End和Avnet Wideband mmWave Radio Development Kit for RFSoC Gen-3.
Simulate Wireless Systems and Deploy Models to Xilinx Zynq UltraScale+ RFSoC
Simulate and analyze SoC architectures, generate HDL code and embedded C code from algorithm models, and deploy systems to prototype hardware like theXilinx Zynq Ultrascale+ RFSOC ZCU111评估套件,Zynq UltraScale+ RFSoC ZCU216 Evaluation Kit, 和Zynq UltraScale+ RFSoC ZCU208 Evaluation Kit(ZCU208 support provided through Avnet RFSoC Explorer).
验证在Zynq Ultrascale+ RFSOC硬件上部署的算法
Verify deployed RTL through cosimulation with MATLAB and Simulink test benches. Test and debug on hardware using MATLAB to access on-board memory.