Hardware-Software Co-Design Overview
The hardware-software (HW/SW) co-design feature in this support package enables you to prototype an SDR algorithm on the Xilinx® Zynq®-based radio hardware. The implementation is partitioned between the ARM® processor and the FPGA fabric of the underlying Zynq system on chip (SoC). In general, you use the ARM processor to implement slower-rate control functionality, and you use the FPGA fabric to implement high-rate signal processing. When the algorithm is deployed, you can control and tune parameters on the HDL logic.
In this diagram, the generated Transmit/Receive software blocks are placed in the
ARM (PS), and the Transmit/Receive user logic
blocks are placed in the FPGA fabric section,
Software Requirements for HW/SW Co-Design
The HW/SW co-design workflow is available in Simulink® only.
The HW/SW co-design workflow in the Communications Toolbox™ Support Package for Xilinx Zynq-Based Radio requires additional software and third-party tools.
To target the FPGA fabric on the device: HDL Coder™ Support Package for Xilinx Zynq Platform (requires HDL Coder)
To target the ARM processor on the device: Embedded Coder® Support Package for Xilinx Zynq Platform (requires Embedded Coder, Simulink Coder™, and Embedded Coder Support Package for ARM Cortex®-A Processors)
Xilinx Vivado® development tools, version 2019.1
In single-channel mode, transmit and receive data frames must contain an even number of samples.
Default FPGA Resource Utilization on Xilinx Zynq-Based SDRs
ADI RF SOM HW Design
ZC706 and FMCOMMS2/3/4 HW Design
ZC706 and FMCOMMS5 HW Design
ZCU102 and FMCOMMS2/3/4 HW Design
ZedBoard and FMCOMMS2/3/4 HW Design
To get started with the HW/SW co-design workflow in this support package:
To learn more about the HW/SW co-design workflow on SoC platforms, see Hardware-Software Co-Design Workflow for SoC Platforms (HDL Coder).