To use the "demo" application contained in TE0xxx-Reference-Designs\reference-TE0xxx\SDK\SDK_Workspace, you should
copy GitHub's "TE-EDK-IP" folder (from https://github.com/Trenz-Electronic/TE-EDK-IP) to the folder that contains the folder "reference-TE0xxx":
GIALLO: you should not alter folder nesting because is a Xilinx Platform Studio requirements
click set_xxxx_project.bat to select your xxxx FPGA mounted on TE module;
double click the system.xmp;
the Xilinx Platform Studio should open
you should click "Project" and then click "Project Options";
under "Advanced Options (Optional) > Project Peripheral Repository Search Path" you must write (if it is not already written) "..TE-EDK-IP\"
GIALLO: you should not alter folder nesting or select MyProcessorIPLib because double nesting of folders is a Xilinx Platform Studio requirements
after this selection the XPS should appear like in this image.
now you can cancel (or move in another folder) the content of TE0xxx-Reference-Designs\reference-TE0xxx\SDK\SDK_Export
now you can copy all .c and .h file from TE0xxx-Reference-Designs\reference-TE0xxx\SDK\SDK_Workspace\demo\src in a temporary folder (C:\demo_src_TE for example)
now you can cancel all files and folders from TE0xxx-Reference-Designs\reference-TE0xxx\SDK\SDK_Workspace
to compile the project you must click "Project" and then "Export Hardware Design to SDK..."
The HW implementation usually takes some time; if you have a very slow computer, the new synthesis could require an hour.
When Xilinx SDK open,
you should click Xilinx "Xilinx Tools" and then "Repositories"
after this a pop-up "Preferences" will appears
you should click "New..." button of "Local Repositories (available to the current workspace)"
you should select C.\XilinxProject\TE-EDK-IP
you should click "Apply"
you should click "OK"
after this you must wait until the building procedure ended.
You should click "File" >"New" > "Project"
a pop up "New Project" will appears
click"Xilinx">"Hardware Platform Specification", then next
a new pop up "New Hardware Project" will appear
under "Target Hardware Specification" click "Browse..." button
a new pop up "Hardware Specification File" will appear
selct "system.xml", "C:\XilinxProject\reference-TE0300\SDK\SDK_Export\hw\system.xml"
the FX2 microcontroller on the TE0300, TE0320 or TE0630 family should contain valid firmware before proceeding. If the FX2 microcontroller has not been programmed before, please follow the instructions in the ????? family User Manuals. You can use Cypress, Python OpenFut or C# OpenFutNet programs.
If you are sure that the FX2 microcontroller is properly connected, you can connect to the TE0300/TE0320/TE0630 module with a JTAG adapter cable. We recommend using the Xilinx Platform Cable USB. Then connect the TE0300/TE0320/TE0630 module to a USB cable.
If the HDL design was successfully implemented and downloaded to the TE0300/TE0320/TE0630 family module, you can proceed to compile the MB software. Press the "build all user applications" button.
Demo program (running on MicroBlaze) will work even in case the UART port is left unconnected: it is not necessary to use a USB/Uart converter or Uart port on a PC.
When application demo is compiled, you can click on the "Start XMD" button to download the hw_test application and open a UART terminal. COL PIFFERO
Open the project by double-clicking on the system.xmp file. The Xilinx Platform Studio is opened. To compile the project press the "Download Bitstream to the FPGA" button.
Before running the demo application, open the #project_root#\xmd.ini file:
1.rst
2.dow sw/test_hw.elf
3.#dow sw/demo.elf
4.run
5.terminal -jtag_uart_server 4321
To run the demo application
uncomment line 3 (remove "#")
comment line 2 (add "#" as first character)
save xmd.ini.
type "exit" in XMD command window
restart XMD by clicking again the "Start XMD" button in the XPS toolbar.
With this application, you can test the PC ↔ FPGA communication using a provided API.
If you want to input some characters to the XMD UART, then open some terminal emulators, such as Microsoft / Hilgraeve HyperTerminal (usually included in Windows START MENU / All programs / Acessories / Communications / Hyper Terminal). Connect using the following settings:
No Host address
Port Number: 4321
TCP/IP connection type
Note: To use the demo project without the XMD UART, you need to use "RS232" instead of "debug_module" as standard in/out port. Otherwise the application running on the Microblaze processor freezes if you disconnect the XMD. To accomplish that you need to set up the Microblaze "Software Platform Settings".
In the dialog window select "OS and libraries" in the left window and pick "RS232" as a stdout and stdin interface. Then rebuild the software and download again the project to the FPGA.
The UART is then redirected to external pins, which are defined in the data/system.ucf file. The following snippet shows the case of the TE0300 series modules:
TE series |
RS232_RX |
RS232_RX |
RS232_TX |
RS232_TX |
TE0300 |
R6 --------> |
------->J5-29 |
P6--------> |
------>J5-31 |
TE0320 |
V17-------> |
--->J5-IO18 |
W17------> |
--->J5-IO19 |
TE0630 |
Y7 --------> |
------>J5-29 |
AB7------> |
------->J5-31 |
TE0304 |
It doesn't apply |
J1-3 |
It doesn't apply |
J1-2 |
TE0323 |
It doesn't apply |
J4-35 |
It doesn't apply |
J4-37 |
host (PC) |
TX |
TX |
RX |
RX |