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In the interrupt control dialog box, make sure that both FX2_UART and axi_timer_0 are connected to the interrupt controller and debug_module is not connected to the interrupt controller as shown in the image below. This button is a little tricky to locate. To configure interrupts, go to the “Ports” tab in “System Assembly View” and locate the “Open interrupt Control Dialog” button. The next step is to route all peripheral interrupts to the microblaze CPU through the interrupt controller. Select “Linux with MMU” under the “Select Configuration” options (Please see image below).Īt this point, we have finished configuring Microblaze CPU and all peripherals. The Microblaze Configuration Wizard will pop up. Right click on microblaze_0 in the “System Assembly View > Bus Interfaces” tab and select “Configure IP” from the pop up menu. Now we will configure the peripheral IPs. There is no need to modify anything, just leave everything as is and click “Finish”. Just double click the “MCB_DDR3” IP and click “Next” at every step and finally click “Finish”. This will result in failure in generating netlist. Workaround for this bug is to just regenerate the files for this IP core. There is a bug in XPS where it fails to load valid parameters for MCB_DDR3 from BSB Wizard files. If everything went well, you will be presented with a window as shown below. Now Xilinx Platform Studio will generate a project for you based on the selections you made in the BSB wizard. Make sure everything is setup as shown in the image below and click “Finish” button. Select the timer and check the “Use Interrupt” check box. Then select “axi_timer” in the “Available Peripherals” list and add that to the system. Then select FX2_UART peripheral and set the baud rate to 115200 and check the “Use Interrupt” check box. Select memory size, I-cache size and D-cache size as 16KB. Leave the Optimization Strategy to its default value and click next.īy default, FX2_UART and MCB_DDR3 will be selected. Select Opsis and 1.0 from Board Name and Board version combo boxes respectively and click “Next” button to go to the next page: In the next page of the wizard, select “Numato Lab” from the Board Vendor combo box (This option should be available if you have placed the BSB wizard support files for Opsis properly as mentioned earlier). Select AXI System in the interconnect Type section and click OK. If everything went fine, you should be presented with BSB wizard window as shown below.Įnter path to a folder where you want to store the project and a project name (Here the project name is Opsis_Linux in the image above). Once XPS is loaded, click on “New BSB Project” under File menu or press Ctrl + Shift + B to invoke the BSB wizard. Once extracted, the complete path to the file should look like “C:\Xilinx\xx.xx\ISE_DS\EDK\board\NumatoLab\ipxact\opsis\data”. Now go to All Programs > Xilinx Design Tools > EDK and start Xilinx Platform Studio.
#Xilinx ise 14.7 usb driver folder location download#
To make the process easier, download BSB Wizard files from here and copy to the folder “C:\Xilinx\xx.xx\ISE_DS\EDK\board”. We will need to use XPS Base System Builder (BSB) to create a new project. Section I: Creating the Microblaze based design for Opsisįor this section we are building Microblaze based embedded platform for Linux using Xilinx EDK. Linux system (author used Ubuntu 14.04 64-bit on a Virtual Machine).
#Xilinx ise 14.7 usb driver folder location windows#
#Xilinx ise 14.7 usb driver folder location series#
So we highly recommend that you read the series for Saturn and get yourself familiar with the steps. This series is based on our article series for Spartan 6 FPGA Module.
![xilinx ise 14.7 usb driver folder location xilinx ise 14.7 usb driver folder location](https://i.imgur.com/UotiHA5.png)
#Xilinx ise 14.7 usb driver folder location how to#
This article will discuss how to create/implement Microblaze processor and run Linux on Numato Opsis. Numato Opsis FPGA Platform is perfectly capable of running Linux with Xilinx’s popular Microblaze 32-bit soft processor.
![xilinx ise 14.7 usb driver folder location xilinx ise 14.7 usb driver folder location](https://m.media-amazon.com/images/I/61Q+kD8le6L._AC_SL1000_.jpg)
The possibilities are only limited by imagination, and also by FPGA speed grade and size. Such flexibility allows FPGAs not only to be used for custom logic circuits but also implement a processor on it and even run Linux (or other operating system) on the processor. FPGAs are best known for their flexibility and versatility.