Difference between revisions of "Running FreeRTOS on Xilinx Zybo"

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platform.c<br />
 
platform.c<br />
 
platform.h<br />
 
platform.h<br />
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platform_config.h
 
printf-stdarg.c<br />
 
printf-stdarg.c<br />
 
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<br />
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= Write the application =
 
= Write the application =
 
Go back into Xilinx SDK and refresh(F5). All the added files should now be visible in the project explorer.
 
Go back into Xilinx SDK and refresh(F5). All the added files should now be visible in the project explorer.
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 +
Open main.c, and comment out the call to ''vParTestInitialise()'' from the ''prvSetupHardware'' function as it is not related to the Zybo board.
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Also comment out all the included headerfiles under "Standard Demo Include:<br />
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[[File:remove_include_demo_libs.png|400px|center]]<br />
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Also set ''#define mainSELECTED_APPLICATION 0'' instead of 1. It should be located around line 141.

Revision as of 18:26, 6 December 2017

Tested on Xilinx Vivado/SDK 2017.3, Ubuntu 16.04 LTS. This tutorial assumes you have completed the "Creating example project with AXI4 Lite peripheral in Xilinx Vivado"-tutorial.

Running FreeRTOS on Xilinx Zybo

This tutorial will help in setting up Xilinx Zybo SoC-board to run FreeRTOS with an example project that toggles the LEDs on the board. It assumes that the user has successfully exported the hardware bitstream from the Xilinx Vivado project created in the previous tutorial linked at the top.

Setup SDK

Launch Xilinx SDK from the project in Xilinx Vivado: File --> Launch SDK.

Create a new application project with File --> New --> Application Project and name it "FreeRTOS_example_project". Use C as language, standalone as OS. Click next, select "Empty Application", and finish.

Acquire FreeRTOS

Download and extract FreeRTOS available at the FreeRTOS homepage:

  1. Homepage [[1]]

Add FreeRTOS to the project

Open the extracted folder, and copy the following files into the SDK project source folder located at: \axi3_lite_tutorial_project\axi4_lite_tutorial_project.sdk\FreeRTOS_example_project\src\

\FreeRTOSV8.2.1\FreeRTOS\Demo\CORTEX_A9_Zynq_ZC702\RTOSDemo\src\
FreeRTOS_asm_vectors.S
FreeRTOSConfig.h
FreeRTOS_tick_config.c
main.c
platform.c
platform.h
platform_config.h printf-stdarg.c

\FreeRTOSV8.2.1\FreeRTOS\Source\
croutine.c
event_groups.c
list.c
queue.c
tasks.c
timers.c

\FreeRTOSV8.2.1\FreeRTOS\Source\include\
croutine.h
deprecated_definitions.h
event_groups.h
FreeRTOS.h
list.h
mpu_prototypes.h
mpu_wrappers.h
portable.h
projdefs.h
queue.h
semphr.h
StackMacros.h
task.h
timers.h

\FreeRTOSV8.2.1\FreeRTOS\Source\portable\MemMang\
heap_4.c

\FreeRTOSV8.2.1\FreeRTOS\Source\portable\GCC\ARM_CA9\
port.c
portASM.S
portmacro.h

Your SDK project source folder should now look like this:

Source folder.png



Edit the highlighted line to the lscript.id file located in the SDK project source folder:

Lscript id edit.png


Comment out "*pxTopOfStack |= portTHUMB_MODE_BIT;" on line 280 in port.c to avoid FreeRTOS to run in thumb-mode:

Port c edit.png



Setting CPU frequency

Next we should configure the CPU to run at 50MHz in the FreeRTOSConfig.h file by editing the configCPU_CLOCK_HZ parameter:

FreeRTOSConfig cpu freq edit.png

Write the application

Go back into Xilinx SDK and refresh(F5). All the added files should now be visible in the project explorer.

Open main.c, and comment out the call to vParTestInitialise() from the prvSetupHardware function as it is not related to the Zybo board. Also comment out all the included headerfiles under "Standard Demo Include:

Remove include demo libs.png



Also set #define mainSELECTED_APPLICATION 0 instead of 1. It should be located around line 141.