| **.subckt tb_inverter_csvco |
| VSS vss GND {vss} |
| VDD vdd vss {vdd} |
| VIN in vss PULSE(0 {vin} 0 1p 1p {T/2} {T}) DC {vin} AC 0 |
| C1 out vss 10f m=1 |
| x1 vdd out in vss vdd vss inverter_csvco |
| x2 vdd out_pex_c in vss vdd vss inverter_csvco_pex_c |
| C2 out_pex_c vss 10f m=1 |
| **** begin user architecture code |
| |
| |
| |
| * Parameters |
| .param kp = 1.0 |
| .param vdd = kp*1.8 |
| .param vss = 0 |
| .param vin = vdd |
| .param T = 100n |
| |
| .options TEMP = 50.0 |
| |
| * Models |
| .lib ~/skywater/skywater-pdk/libraries/sky130_fd_pr_ngspice/latest/models/corners/sky130.lib TT |
| .include ~/sky130-mpw2-fulgor/inverter_csvco/sch/simulations/inverter_csvco_pex_c.spice |
| |
| * Initial Conditions |
| .ic v(out) = 0.0 |
| .ic v(out_wp) = 0.0 |
| .ic v(out_wp_rc) = 0.0 |
| .ic v(out_pex_c) = 0.0 |
| |
| * Data to save |
| .save all @M.X1.XM1.msky130_fd_pr__nfet_01v8[id] @M.X1.XM2.msky130_fd_pr__pfet_01v8[id] @M.X1.XM1.msky130_fd_pr__nfet_01v8[vds] @M.X1.XM2.msky130_fd_pr__pfet_01v8[vds] @M.X1.XM1.msky130_fd_pr__nfet_01v8[vdsat] @M.X1.XM2.msky130_fd_pr__pfet_01v8[vdsat] @M.X1.XM1.msky130_fd_pr__nfet_01v8[cgs] @M.X1.XM2.msky130_fd_pr__pfet_01v8[cgs] @M.X1.XM1.msky130_fd_pr__nfet_01v8[cgd] @M.X1.XM2.msky130_fd_pr__pfet_01v8[cgd] @M.X1.XM1.msky130_fd_pr__nfet_01v8[csb] @M.X1.XM2.msky130_fd_pr__pfet_01v8[csb] @M.X1.XM1.msky130_fd_pr__nfet_01v8[cdb] @M.X1.XM2.msky130_fd_pr__pfet_01v8[cdb] @M.X1.XM1.msky130_fd_pr__nfet_01v8[cgg] @M.X1.XM2.msky130_fd_pr__pfet_01v8[cgg] @M.X1.XM1.msky130_fd_pr__nfet_01v8[cgb] @M.X1.XM2.msky130_fd_pr__pfet_01v8[cgb] |
| |
| * Simulation |
| .control |
| set filetype = ascii |
| op |
| write tb_inverter_min.raw |
| echo . |
| echo ------ OP Results ----- |
| print all |
| |
| reset |
| |
| dc vin 0 1.8 0.01 |
| setplot dc1 |
| plot v(in) v(out) v(out_pex_c) |
| write tb_inverter_min_dc.raw |
| |
| reset |
| |
| tran 1ns 1us |
| meas tran tpLH trig v(in) val=0.9 fall=5 targ v(out) val=0.9 rise=5 |
| meas tran tpHL trig v(in) val=0.9 rise=5 targ v(out) val=0.9 fall=4 |
| meas tran tpLHc trig v(in) val=0.9 fall=5 targ v(out_pex_c) val=0.9 rise=5 |
| meas tran tpHLc trig v(in) val=0.9 rise=5 targ v(out_pex_c) val=0.9 fall=4 |
| let tp = (0.5*(tpLH + tpHL)) |
| let tp_c = (0.5*(tpLHc + tpHLc)) |
| echo . |
| echo ---- tp Ideal ---- |
| print tpLH tpHL tp |
| echo . |
| echo ---- tp PEX C ---- |
| print tpLHc tpHLc tp_c |
| write tb_inverter_tran.raw |
| plot v(in) v(out) v(out_pex_c)+2 |
| |
| .endc |
| |
| |
| |
| **** end user architecture code |
| **.ends |
| |
| * expanding symbol: inverter_csvco.sym # of pins=6 |
| * sym_path: /home/dhernando/sky130-mpw2-fulgor/inverter_csvco/sch/inverter_csvco.sym |
| * sch_path: /home/dhernando/sky130-mpw2-fulgor/inverter_csvco/sch/inverter_csvco.sch |
| .subckt inverter_csvco vdd out in vss vbulkp vbulkn |
| *.iopin vss |
| *.ipin in |
| *.opin out |
| *.iopin vdd |
| *.iopin vbulkn |
| *.iopin vbulkp |
| XM1 out in vss vbulkn sky130_fd_pr__nfet_01v8 L=0.2 W=0.75 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 in vdd vbulkp sky130_fd_pr__pfet_01v8 L=0.2 W=1.5 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 |
| |
| .GLOBAL GND |
| ** flattened .save nodes |
| .end |
