xschem/simulations/DFF.spice - third_party/shuttle/sky130/mpw-002/slot-029 - Git at Google

 **.subckt DFF D CLK Q Reset vss
 *.ipin D
 *.ipin CLK
 *.opin Q
 *.ipin Reset
 *.iopin vss
 x1 D CLK Q P vss nor
 x2 D P P1 Q vss nor
 x3 D P P2 P1 vss nor
 x4 D P1 Reset P2 vss nor
 **.ends

 * expanding   symbol:  nor.sym # of pins=5
 * sym_path: /home/dhernando/caravel_analog_fulgor/xschem/nor.sym
 * sch_path: /home/dhernando/caravel_analog_fulgor/xschem/nor.sch
 .subckt nor  vdd A B out vss
 *.ipin A
 *.ipin B
 *.iopin vdd
 *.opin out
 *.iopin vss
 XM1 out A vss vss sky130_fd_pr__nfet_01v8 L=0.15 W=0.45 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
 + pd='2*int((nf+1)/2) * (W/nf + 0.29)' ps='2*int((nf+2)/2) * (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
 + sa=0 sb=0 sd=0 mult=1 m=1
 XM2 out B vss vss sky130_fd_pr__nfet_01v8 L=0.15 W=0.45 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
 + pd='2*int((nf+1)/2) * (W/nf + 0.29)' ps='2*int((nf+2)/2) * (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
 + sa=0 sb=0 sd=0 mult=1 m=1
 XM4 out B net1 vdd sky130_fd_pr__pfet_01v8 L=0.15 W=0.9 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
 + pd='2*int((nf+1)/2) * (W/nf + 0.29)' ps='2*int((nf+2)/2) * (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
 + sa=0 sb=0 sd=0 mult=1 m=1
 XM3 net1 A vdd vdd sky130_fd_pr__pfet_01v8 L=0.15 W=0.9 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
 + pd='2*int((nf+1)/2) * (W/nf + 0.29)' ps='2*int((nf+2)/2) * (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
 + sa=0 sb=0 sd=0 mult=1 m=1
 XM5 net2 B vdd vdd sky130_fd_pr__pfet_01v8 L=0.15 W=0.9 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
 + pd='2*int((nf+1)/2) * (W/nf + 0.29)' ps='2*int((nf+2)/2) * (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
 + sa=0 sb=0 sd=0 mult=1 m=1
 XM6 out A net2 vdd sky130_fd_pr__pfet_01v8 L=0.15 W=0.9 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
 + pd='2*int((nf+1)/2) * (W/nf + 0.29)' ps='2*int((nf+2)/2) * (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
 + sa=0 sb=0 sd=0 mult=1 m=1
 .ends

 ** flattened .save nodes
 .end
	**.subckt DFF D CLK Q Reset vss
	*.ipin D
	*.ipin CLK
	*.opin Q
	*.ipin Reset
	*.iopin vss
	x1 D CLK Q P vss nor
	x2 D P P1 Q vss nor
	x3 D P P2 P1 vss nor
	x4 D P1 Reset P2 vss nor
	**.ends

	* expanding symbol: nor.sym # of pins=5
	* sym_path: /home/dhernando/caravel_analog_fulgor/xschem/nor.sym
	* sch_path: /home/dhernando/caravel_analog_fulgor/xschem/nor.sch
	.subckt nor vdd A B out vss
	*.ipin A
	*.ipin B
	*.iopin vdd
	*.opin out
	*.iopin vss
	XM1 out A vss vss sky130_fd_pr__nfet_01v8 L=0.15 W=0.45 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
	+ pd='2int((nf+1)/2) (W/nf + 0.29)' ps='2int((nf+2)/2) (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
	+ sa=0 sb=0 sd=0 mult=1 m=1
	XM2 out B vss vss sky130_fd_pr__nfet_01v8 L=0.15 W=0.45 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
	+ pd='2int((nf+1)/2) (W/nf + 0.29)' ps='2int((nf+2)/2) (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
	+ sa=0 sb=0 sd=0 mult=1 m=1
	XM4 out B net1 vdd sky130_fd_pr__pfet_01v8 L=0.15 W=0.9 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
	+ pd='2int((nf+1)/2) (W/nf + 0.29)' ps='2int((nf+2)/2) (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
	+ sa=0 sb=0 sd=0 mult=1 m=1
	XM3 net1 A vdd vdd sky130_fd_pr__pfet_01v8 L=0.15 W=0.9 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
	+ pd='2int((nf+1)/2) (W/nf + 0.29)' ps='2int((nf+2)/2) (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
	+ sa=0 sb=0 sd=0 mult=1 m=1
	XM5 net2 B vdd vdd sky130_fd_pr__pfet_01v8 L=0.15 W=0.9 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
	+ pd='2int((nf+1)/2) (W/nf + 0.29)' ps='2int((nf+2)/2) (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
	+ sa=0 sb=0 sd=0 mult=1 m=1
	XM6 out A net2 vdd sky130_fd_pr__pfet_01v8 L=0.15 W=0.9 nf=1 ad='int((nf+1)/2) * W/nf * 0.29' as='int((nf+2)/2) * W/nf * 0.29'
	+ pd='2int((nf+1)/2) (W/nf + 0.29)' ps='2int((nf+2)/2) (W/nf + 0.29)' nrd='0.29 / W' nrs='0.29 / W'
	+ sa=0 sb=0 sd=0 mult=1 m=1
	.ends

	** flattened .save nodes
	.end