EGR 270 Fundamentals of Computer Engineering File N270L5 Lab 5 Implementing Combinational Logic Circuits using FPGAs Lab Format A This is a Individual Lab so each student must design and test their own circuits Students are free to assist each other in all labs Each student must complete the Preliminary Work Section before lab begins Preliminary Work will be checked in lab and will be part of the lab report grade Each student must submit his or her own lab report Lab reports will not be accepted until all required circuits have been demonstrated to the instructor Objective The objectives of this laboratory are to introduce the student to Field Programmable Gate Arrays FPGAs introduce the student to Aldec Active HDL to generate VHDL code to design and simulate combinational logic circuits introduce the student to Xilinx ISE to synthesize a VHDL design into a specific FPGA introduce the student to the Digilent BASYS2 FPGA board introduce the student to Digilent Adept to download synthesized designs to the BASYS2 FPGA board give the student an opportunity to design program and test a simple combinational logic circuit using an FPGA B Materials Digilent BASYS2 FPGA board Aldec Active HDL software Xilinx ISE software Digilent Adept software Reference materials available on course Blackboard site Combinational Logic Circuits using Aldec Active HDL 9 2 and Xilinx ISE 14 2 Digilent BASYS2 Reference Manual C Introduction Refer to class lectures and the reference materials listed above 1 D Preliminary Work 1 Design a custom BCD to 7 segment decoder circuit as pictured below that will have the following features The output will be connected to a common anode 7 segment display so remember that a 0 LOW lights each segment Inputs 0 9 should light the usual segments for those digits Inputs 10 15 should light your name or initials as you would like them to appear each student must have a unique pattern Do not use any don t cares An example is shown below Clearly show which segments you will light for all BCD input combinations 0 15 Include a truth table Include Karnaugh maps for the 7 outputs and determine a minimal SOP expression for each output Standard patterns for digits 0 9 2 E Your unique pattern Draw a logic diagram by hand or using PSPICE for the SOP circuit above using only AND gates OR gates and inverters Assume that ANDs and ORs are available with any number of inputs How many gates are required Laboratory Work Note For all filenames and folder names in this lab use only letters numbers and underscores Also begin them with a letter 1 Use the Aldec Active HDL software to create a VHDL design for your 7 segment decoder circuit Use VHDL to define your custom BCD to 7 segment decoder circuit In particular o Define 12 outputs including Cathodes a b c d e f g DP decimal point AN0 AN1 AN2 AN3 used to turn on or off each of the four 7 segment displays Recall that AN0 0 will assert or turn on display 0 AN3 1 will turn off display 3 similar instructions for AN1 and AN2 o Define 4 inputs for the BCD input In the architecture section of the VHDL file add the following expressions o The SOP expressions developed in the Preliminary Work section for cathodes a g o DP 1 to turn off the decimal point o AN0 0 will assert or turn on display 0 o AN3 1 will turn off display 3 similar for displays 1 and 2 o Modify comments at the beginning of the VHDL program name course description etc Generate a testbench to test all 12 outputs for the16 input combinations o Use the testbench to generate a truth table print it once you verify that it is correct o Use the testbench to generate the input and output waveforms and print them If the truth table was correct print the VHDL file and the testbench file 2 Use the Xilinx ISE software to synthesize your design for the FPGA to be used in lab Be sure to assign pin numbers to each input and output Print the following items from Xilinx or PlanAhead Package View of the FPGA highlight and label each input and output Design Summary Pinout Report arranged by signal User Configuration File Static Timing Report RTL Schematic 2 Connect the Digilent BASYS2 FPGA board to the computer using the USB cable provided Move the JP3 jumper to the PC left position Turn ON the board slide switch in lower left position Red Status LED should turn ON 3 Use the Digilent Adept software to download your design to the BASYS2 Test your design and verify that it is correct for each of the 16 possible switch combinations Record the results Turn off the BASYS2 board and turn it back on again Your design should have been lost Move the JP3 jumper to the ROM position and use the Digilent Adept software to program the PROM on the BASYS2 board Test your design again and verify that it is correct Turn off the BASYS2 board and turn it back on again Your design should still work properly 4 Demonstration Demonstrate the proper operation of your design to the instructor Demonstrate that the design has been programmed into PROM by turning off the BASYS2 board and turning it on again and showing that the design still functions properly 3 F Report Remember that each lab report should have the following four sections Also see additional notes below Title Page Preliminary Work Include instructions Lab Results Include all measured results truth tables Include step numbers and titles or headings that make it clear what is being shown Include printouts of the following files from Aldec software add a title to each item o VHDL code for your 7 segment display circuit Add title section information Highlight all information that you entered o VHDL testbench code Add title section information Highlight all information that you entered o Truth table Write your functions as sums of minterms on the sheet and verify if they are correct o Waveform File Write your functions as sums of minterms on the sheet and verify if they are correct Include printouts of the following files from Xilinx including PlanAhead software add a title to each item o Design Summary o Pinout Report arranged by used signal name o User Configuration File use Notepad and look for file with ucf extension o RTL Schematic o Static Timing Report Highlight and identify the longest path o Package View of Xilinx Spartan 3E Highlight and label all used inputs and outputs Discussion Conclusion Answer the following questions about your design o How many Look Up Tables LUTs were used See Design Summary o What is the total number of LUTs available o What percentage