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DILIGENT BOARDS TUTORIAL INSTALL
DILIGENT BOARDS TUTORIAL DRIVERS
DILIGENT BOARDS TUTORIAL SOFTWARE
DILIGENT BOARDS TUTORIAL CODE
DILIGENT BOARDS TUTORIAL DOWNLOAD

DILIGENT BOARDS TUTORIAL CODE

You can import the VHDL code in the Xilinx environment and program the FPGA Generate and save the VHDL- This option exports the VHDL netlist allowing students to view the VHDL code. Generate and save a programming file- Students can generate a bit file that can be used to program hardware later. Programming the connected PLD – Allows students to deploy the design directly to the FPGA. There are three options for exporting the digital logic from the PLD schematic: Select the push button BTN1 and click OK.Place another connector for the AND gate input by click the Input connector icon on the toolbar.Select a AND2 gate located in the PLD Logic group, Logic_gates family and click the OK button. The selected connectors are placed on the workspace.In this tutorial the LED LED0 and the push button BTN0 are selected. The New PLD Design dialog allows you to select which peripherals you will use in your design. Click Next.Įnter Introduction to Digital Electronics in the PLD design name field and click Next. The steps below describe the process for creating a PLD design for the DSDB FPGA board, the same steps can be used for the other boards.Ĭlick the PLD Design… the click the Create button.Ĭlick the Use standard configuration down arrow and select your board.

DILIGENT BOARDS TUTORIAL SOFTWARE

Once you have installed the required software and driver, you are ready to program the FPGA board.

DILIGENT BOARDS TUTORIAL INSTALL

Once installed, navigate to C:\NIFPGA\programs\Vivado2014_4\data\xicom\cable_drivers\nt64\digilent and install the install_digilent.exe file to install the Digilent specific drivers.Īfter any installation, make sure to restart the computer. First, make sure to install the LabVIEW FPGA Vivado tool listed above.

DILIGENT BOARDS TUTORIAL DRIVERS

Xilinx Vivado no longer automatically installs the Digilent Driver so to enable support for your Digilent board, the drivers must be installed as well. To install Xilinx ISE, navigate to the tool linked above and go through the typical installation process.

DILIGENT BOARDS TUTORIAL DOWNLOAD

Please only download the FPGA tools that apply to the FPGA board that is being programmed in Multisim. NI LabVIEW FPGA Xilinx ISE 14.7 Tools/Digilent Drivers Refer below to see which software you need to install for your board: To program the FPGA boards, the Digilent driver and Xilinx software and must be installed on your computer which could be Xilinx ISE or Vivado depending on which board you have.įor LabVIEW FPGA users with the LabVIEW Xilinx software already installed, you only have to install the additional Digilent driver. In addition, a constraint file (UCF in Xilinx ISE and XDC in Vivado) is used to map signals to the FPGA's pins. This support includes a PLD configuration file that defines the names and properties of port connectors that a Multisim PLD design will use. Multisim 14.0.1 Education and later comes with built-in PLD support for the NI Digital System Development Board (DSDB) and many other Digilent Boards. This tutorial offers a guide to setting up and teaching digital electronics with Multisim PLD schematic. This provides educators with more flexibility when choosing a platform to adopt for teaching digital logic fundamentals. You can use Multisim to program digital logic on the NI Digital Systems Development Board (DSDB) or Digilent Teaching Boards. Multisim enables you to program your Xilinx device directly from the Multisim environment, making the connection between theoretical concepts and hardware implementation even easier. The Multisim Programmable Logic Device (PLD) Schematic integrates simulation and hardware.

View the complete Teaching Digital Logic Fundamentals tutorial series. In this tutorial, we demonstrate how digital logic theory can be taught using educational hardware to provide a hands-on approach to learning. The PLD schematic allows educators and students to create graphical logic diagrams like those found in textbooks and deploy these to educational boards. The Multisim Programmable Logic Diagram (PLD) along with support for leading teaching hardware allows students to put the fundamentals of digital theory into practice. Taking a hands-on approach to learning digital logic can be difficult without the need for students to learn complex hardware descriptive languages such as VHDL.