void setup() {
  // put your setup code here, to run once:

}

void loop() {
  // put your main code here, to run repeatedly:

}
sw1:1a
sw1:2a
sw1:3a
sw1:4a
sw1:5a
sw1:6a
sw1:7a
sw1:8a
sw1:8b
sw1:7b
sw1:6b
sw1:5b
sw1:4b
sw1:3b
sw1:2b
sw1:1b
10k
clock1:CLK
pwr2:GND
pwr1:VCC
Digital InputBreakout
chip1:EXTIN0
chip1:EXTIN1
chip1:EXTIN2
chip1:EXTIN3
chip1:EXTIN4
chip1:EXTIN5
chip1:EXTIN6
chip1:EXTIN7
chip1:IN7
chip1:IN6
chip1:IN5
chip1:IN4
chip1:IN3
chip1:IN2
chip1:IN1
chip1:IN0
Digital OutputBreakout
chip2:OUT0
chip2:OUT1
chip2:OUT2
chip2:OUT3
chip2:OUT4
chip2:OUT5
chip2:OUT6
chip2:OUT7
chip2:EXTOUT7
chip2:EXTOUT6
chip2:EXTOUT5
chip2:EXTOUT4
chip2:EXTOUT3
chip2:EXTOUT2
chip2:EXTOUT1
chip2:EXTOUT0
sevseg1:COM.1
sevseg1:COM.2
sevseg1:A
sevseg1:B
sevseg1:C
sevseg1:D
sevseg1:E
sevseg1:F
sevseg1:G
sevseg1:DP
sw2:1
sw2:2
sw2:3
btn1:1.l
btn1:2.l
btn1:1.r
btn1:2.r
pwr3:VCC
flipflop3:D
flipflop3:CLK
flipflop3:Q
flipflop3:NOTQ
flipflop4:D
flipflop4:CLK
flipflop4:Q
flipflop4:NOTQ
flipflop5:D
flipflop5:CLK
flipflop5:Q
flipflop5:NOTQ
flipflop6:D
flipflop6:CLK
flipflop6:Q
flipflop6:NOTQ
flipflop7:D
flipflop7:CLK
flipflop7:Q
flipflop7:NOTQ
flipflop8:D
flipflop8:CLK
flipflop8:Q
flipflop8:NOTQ
flipflop1:D
flipflop1:CLK
flipflop1:Q
flipflop1:NOTQ
flipflop2:D
flipflop2:CLK
flipflop2:Q
flipflop2:NOTQ
flipflop9:D
flipflop9:CLK
flipflop9:Q
flipflop9:NOTQ
flipflop10:D
flipflop10:CLK
flipflop10:Q
flipflop10:NOTQ
flipflop11:D
flipflop11:CLK
flipflop11:Q
flipflop11:NOTQ
flipflop12:D
flipflop12:CLK
flipflop12:Q
flipflop12:NOTQ
flipflop13:D
flipflop13:CLK
flipflop13:Q
flipflop13:NOTQ
flipflop14:D
flipflop14:CLK
flipflop14:Q
flipflop14:NOTQ
flipflop15:D
flipflop15:CLK
flipflop15:Q
flipflop15:NOTQ
flipflop16:D
flipflop16:CLK
flipflop16:Q
flipflop16:NOTQ
flipflop17:D
flipflop17:CLK
flipflop17:Q
flipflop17:NOTQ
flipflop18:D
flipflop18:CLK
flipflop18:Q
flipflop18:NOTQ

ERC Warnings

flipflop1:CLK: Clock driven by combinatorial logic