spice_test_suite/plot_mosfet_iv.py - skywater-pdk-audit - Git at Google

 #!/usr/bin/env python3
 #
 # Plot MOSFET I/V curve from devicename + '__vth.data' from running ngspice
 # on 'mosfet_test.spice'

 import os
 import sys
 import matplotlib.pyplot as plt


 def make_mosfet_iv_plot(devicepath, devicename, version, corner):

     with open(devicepath + '/' + devicename + '__vth.data', 'r') as ifile:
         idata = ifile.read().split()

     # Reformat data

     nrows = int(len(idata) / 6)
     allIds = list(float(idata[p + 1]) for p in range(0, len(idata), 6))
     allVgs = list(float(idata[p + 3]) for p in range(0, len(idata), 6))
     allVds = list(float(idata[p + 5]) for p in range(0, len(idata), 6))

     # Generate X/Y plots

     plt.figure()
     for i in range(0, len(allIds), 181 * 10):
         Ids = allIds[i : i + 181]
         Vgs = allVgs[i : i + 181]
         Vds = allVds[i : i + 181]
         plt.plot(Vds, Ids)

     title = 'SkyWater sky130 PDK ' + version + ' ' + devicename + ' I/V characteristic (Ids vs. Vds) at corner ' + corner
     plt.title(title)
     plt.xlabel('Vds (V)')
     plt.ylabel('Ids (A)')
     plt.axis('on')
     plt.grid('on')
     plt.savefig(devicepath + '/' + devicename + '_ids_v_vds.svg')

     plt.figure()
     for i in range(0, 181, 18):
         Ids = allIds[i : len(allIds): 181]
         Vgs = allVgs[i : len(allVgs): 181]
         Vds = allVds[i : len(allVds): 181]
         plt.plot(Vgs, Ids)

     title = 'SkyWater sky130 PDK ' + version + ' ' + devicename + ' I/V characteristic (Ids vs. Vgs) at corner ' + corner
     plt.title(title)
     plt.xlabel('Vgs (V)')
     plt.ylabel('Ids (A)')
     plt.axis('on')
     plt.grid('on')
     plt.savefig(devicepath + '/' + devicename + '_ids_v_vgs.svg')


 if __name__ == '__main__':
     if len(sys.argv) < 2:
         print("No device name given to plot_mosfet_iv")
         sys.exit(1)

     devicename = sys.argv[1]
     make_mosfet_iv_plot(os.getcwd(), devicename, version, corner)
	#!/usr/bin/env python3
	#
	# Plot MOSFET I/V curve from devicename + '__vth.data' from running ngspice
	# on 'mosfet_test.spice'

	import os
	import sys
	import matplotlib.pyplot as plt


	def make_mosfet_iv_plot(devicepath, devicename, version, corner):

	with open(devicepath + '/' + devicename + '__vth.data', 'r') as ifile:
	idata = ifile.read().split()

	# Reformat data

	nrows = int(len(idata) / 6)
	allIds = list(float(idata[p + 1]) for p in range(0, len(idata), 6))
	allVgs = list(float(idata[p + 3]) for p in range(0, len(idata), 6))
	allVds = list(float(idata[p + 5]) for p in range(0, len(idata), 6))

	# Generate X/Y plots

	plt.figure()
	for i in range(0, len(allIds), 181 * 10):
	Ids = allIds[i : i + 181]
	Vgs = allVgs[i : i + 181]
	Vds = allVds[i : i + 181]
	plt.plot(Vds, Ids)

	title = 'SkyWater sky130 PDK ' + version + ' ' + devicename + ' I/V characteristic (Ids vs. Vds) at corner ' + corner
	plt.title(title)
	plt.xlabel('Vds (V)')
	plt.ylabel('Ids (A)')
	plt.axis('on')
	plt.grid('on')
	plt.savefig(devicepath + '/' + devicename + '_ids_v_vds.svg')

	plt.figure()
	for i in range(0, 181, 18):
	Ids = allIds[i : len(allIds): 181]
	Vgs = allVgs[i : len(allVgs): 181]
	Vds = allVds[i : len(allVds): 181]
	plt.plot(Vgs, Ids)

	title = 'SkyWater sky130 PDK ' + version + ' ' + devicename + ' I/V characteristic (Ids vs. Vgs) at corner ' + corner
	plt.title(title)
	plt.xlabel('Vgs (V)')
	plt.ylabel('Ids (A)')
	plt.axis('on')
	plt.grid('on')
	plt.savefig(devicepath + '/' + devicename + '_ids_v_vgs.svg')


	if __name__ == '__main__':
	if len(sys.argv) < 2:
	print("No device name given to plot_mosfet_iv")
	sys.exit(1)

	devicename = sys.argv[1]
	make_mosfet_iv_plot(os.getcwd(), devicename, version, corner)