List of needed pin and wire connections for various components on the Simon Says game By JColvin Instructable tutorial available at instructables.com/id/Simon-Says-with-LEDs-and-Sound/ For the two PmodSWTs -First PmodSWT (controlling the red LEDs) --pin 1 on the PmodSWT to pin 30 on the WF32 --pin 2 on the PmodSWT to pin 31 on the WF32 --pin 3 on the PmodSWT to pin 32 on the WF32 --pin 4 on the PmodSWT to pin 33 on the WF32 --pin 5 on the PmodSWT to a grounded rail (0v) --pin 6 on the PmodSWT to a powered rail (3.3v) -Second PmodSWT (controlling the green LEDs) --pin 1 on the PmodSWT to pin 29 on the WF32 --pin 2 on the PmodSWT to pin 28 on the WF32 --pin 3 on the PmodSWT to pin 27 on the WF32 --pin 4 on the PmodSWT to pin 26 on the WF32 --pin 5 on the PmodSWT to a grounded rail (0v) --pin 6 on the PmodSWT to a powered rail (3.3v) For the final answer button --One leg pulled up to a powered 3.3V rail by a small resistor (~220 Ohms or so) --Leg directly next to the first leg (not on the opposite side) attach the anode of an LED and the cathode of the LED tied to ground. Connect a wire from the anode side to pin 3 on the WF32 --Leg opposite of the LED leg, pull down to a grounded rail (0v) via a larger resistor (~10k ohms or so) --I have the final leg (opposite of the first leg pulled up to a powered rail) attached to nothing For the PmodAMP2 --pin 1 on the PmodAMP2 to pin 4 on the WF32 --pin 2 on the PmodAMP2 pulled up to a powered rail (3.3V) via a resistor --pin 3 on the PmodAMP2 left floating (unattached) --pin 4 on the PmodAMP2 pulled up to a powered rail (3.3V) via a resistor --pin 5 on the PmodAMP2 to a grounded rail (0v) --pin 6 on the PmodAMP2 to a powered rail (3.3V) --3.5 mm audio jack on the PmodAMP2 to a pair of earbuds, headphones, or speakers This is a monophonic output, so you may want to try not having the audio pin not pushed in all the way For the PmodDA4 --pin 1 on the PmodDA4 to pin 10 on the Wf32 --pin 2 on the PmodDA4 to pin 11 on the Wf32 --pin 3 on the PmodDA4 left floating (unattached) --pin 4 on the PmodDA4 to pin 13 on the Wf32 --pin 5 on the PmodDA4 to a grounded rail (0v) --pin 6 on the PmodDA4 to a powered rail (3.3v) --output A on the PmodDA4 to LED #1 (the red LED at the end of the row as per my photo) photo available in the Instructable (linked above) --output B on the PmodDA4 to LED #2 (the second red LED) --output C on the PmodDA4 to LED #3 (the third red LED) --output D on the PmodDA4 to LED #4 (the fourth red LED, next to the green LED in the middle of the row) --output E on the PmodDA4 to LED #5 (the green LED in the middle next to the red LED) --output F on the PmodDA4 to LED #6 (the second green LED) --output G on the PmodDA4 to LED #7 (the third green LED) --output H on the PmodDA4 to LED #8 (the green LED at the end of the row of LEDs) --the GND and VCC outputs are left floating (unattached) For the chipKIT WF32 --3.3V pin in the power header attached to a positively (+) labeled rail on a breadboard --0V pin in the power header attached to a negatively (-) labeled rail on a breadboard --pin 39 either attached a grounded rail (0V) for hard mode or attached to a powered rail (3.3V) for easy mode Powering the chipKIT WF32 -If using a USB port as power --attach your USB cable to the mini-USB port on the board Set the J15 jumper to UART (middle setting) set the J16 jumpers to have one jumper attaching LDO IN to VU and the other jumper between LDO OUT and 5V0 -If using a 5V external power supply --Set the J15 jumper to EXT (the top setting) set the J16 jumpers to have on jumper connecting VU to 5V0 (leave the other J16 jumper unconnected) --attach your power supply to the power jack -If using an external power supply between 7V and 15V --Set the J15 jumper to EXT (the top setting) set the J16 jumpers to have one jumper attaching LDO IN to VU and the other jumper between LDO OUT and 5V0 --attach your power supply to the power jack