- Overview
- Setup HLx Environment
- Create Example Design (GUI)
- Create Example Design (Command line)
- Simulation
- Implementing the Design
- AFI Creation
- CL Example Software and executing on F1
AXIL_SDA AXI GPIO input connected to DDR4_A/B/D and SH calibration done signal, processor polls register
DMA_PCIS writes 1K data pattern for DDR4_SH source buffer
AXIL_USR sets AXI CDMA for 1K DMA operation from DDR4_SH to DDR4_B
AXIL_USR polls AXI CDMA status register to determine when transfer is complete
DMA_PCIS reads from destination buffer(DDR4_B) 1K and compares vs data pattern
AXIL_OCL AXI GPIO output written 16-bits for VLED (16-bit patter of 0xAAAA)
Read from VLED from Verilog task or linux command to read VLED to verify pattern
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Clone the github and setup the HDK environment
$ git clone https://github.com/aws/aws-fpga.git $AWS_FPGA_REPO_DIR $ cd $AWS_FPGA_REPO_DIR $ source hdk_setup.sh -
To setup the HLx Environment, run the following commands:
$ mkdir -p ~/.Xilinx/Vivado $ echo 'source $::env(HDK_SHELL_DIR)/hlx/hlx_setup.tcl' >> ~/.Xilinx/Vivado/Vivado_init.tclNOTE: This modifies Vivado defaults, it is recommended you remove this if you wish to run non-HLx examples.
For more information please see: HLx Setup Instructions.
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You will also need to setup AWS CLI and S3 Bucket to enable AFI creation
- To launch Vivado GUI
- Change directories to the cl/examples/cl_ipi_cdma_test_hlx directory
- Invoke Vivado by typing
vivadoin the console - In the Vivado TCL Console type in the following to create the cl_ipi_cdma_test example. The example will be generated in cl/examples/cl_ipi_cdma_test/example_projects. The vivado project is examples_projects/cl_ipi_cdma_test.xpr
aws::make_ipi -examples cl_ipi_cdma_test- Once the Block Diagram is opened, review the different IP blocks especially the settings in the AWS IP
- Alternatively, to run the Vivado GUI from command line (Linux only)
- Make sure your $CL_DIR is pointing to the example directory. The following will generate the IPI Block Design (BD)
NOTE: The "-gui" switch is optional. It allows you to modify the example design, you will need to have a DISPLAY setup for the GUI to launch. To run the full creation and default implementation flow without the GUI, remove this switch.$ cd $HDK_DIR/cl/examples/cl_ipi_cdma_test_hlx $ export CL_DIR=$(pwd) $ cd $CL_DIR/build/scripts $ ./aws_build_dcp_from_cl.sh -gui
The simulation settings are already configured.
- To launch simulation from within the Vivado GUI,
- In the Sources/Hierarchy tab, under sim_1->IP, disable the 3 IPs for the cl_ipi_example design. (These IPs are included with the AWS IP and are needed when using no DDR4s in the CL for the SH models for DDR4)
- Click on Simulation->Run Simulation->Run Behavioral Simulation
- Add signals needed in the simulation
- Type
run -allin the TCL console (could take 30 mins to 1 hour based upon machine)
- To run implmentation from within the GUI is opened, in the Design Runs tab:
- Right click on impl_1 in the Design Runs tab and select Launch Runs…
- Click OK in the Launch Runs Dialog Box.
- Click OK in the Missing Synthesis Results Dialog Box
This will run both synthesis and implementation.
The completed .tar file is located in:
$CL_DIR/build/scripts/example_projects/cl_ipi_cdma_test.runs/faas_1/build/checkpoints/to_aws/<timestamp>.Developer_CL.tar
For information on how to create AFI from this tar file, follow the steps outlined here.
The runtime software must be compiled for the AFI to run on F1.
Copy the software directory to any directory and compile with the following commands:
$ cp -r $HDK_COMMON_DIR/shell_stable/hlx/hlx_examples/build/IPI/cl_ipi_cdma_test/software <any_directory>
$ cd software
$ make all
$ sudo ./test_cl