from OPENCHAMS import * circuit = Circuit(Name("design"), Name("myTech")) # value parameters circuit.addParameter(Name("temp"), 27.0 ) circuit.addParameter(Name("Vdd") , 1.2 ) circuit.addParameter(Name("Vss") , 0.0 ) circuit.addParameter(Name("L") , 0.1e-6) circuit.addParameter(Name("Ids") , 30e-6 ) circuit.addParameter(Name("Veg") , 0.12 ) # equation parameters circuit.addParameter(Name("complex"), "myEq") # netlist : netlist = circuit.createNetlist() # instances # nmos1 inst_nmos1 = netlist.addDevice("nmos1", "Transistor", "NMOS", True) inst_nmos1.addConnector("G") inst_nmos1.addConnector("S") inst_nmos1.addConnector("D") tr_nmos1 = inst_nmos1.addTransistor("m1") tr_nmos1.gate = "G" # the name of the connector of inst_nmos1 tr_nmos1.source = "S" tr_nmos1.drain = "D" tr_nmos1.bulk = "S" # pmos1 inst_pmos1 = netlist.addDevice("pmos1", "Transistor", "PMOS", True) inst_pmos1.addConnector("G") inst_pmos1.addConnector("S") inst_pmos1.addConnector("D") tr_pmos1 = inst_pmos1.addTransistor("m1") tr_pmos1.gate = "G" # the name of the connector of inst_pmos1 tr_pmos1.source = "S" tr_pmos1.drain = "D" tr_pmos1.bulk = "S" # nets _vdd = netlist.addNet("vdd", "power" , True) _vss = netlist.addNet("vss", "ground" , True) _in = netlist.addNet("in" , "logical", True) _out = netlist.addNet("out", "logical", True) _vdd.connectTo("pmos1", "S") _vss.connectTo("nmos1", "S") _in.connectTo ("nmos1", "G") _in.connectTo ("pmos1", "G") _out.connectTo("nmos1", "D") _out.connectTo("pmos1", "D") # schematic schematic = circuit.createSchematic() schematic.addInstance("nmos1", 2490, 2600, "ID") schematic.addInstance("pmos1", 2490, 2300, "ID") _vdd.addPort("inV" , 0, 2490, 2100, "ID") _vss.addPort("inV" , 0, 2490, 2800, "MY") _in.addPort ("inH" , 0, 2190, 2500, "ID") _out.addPort("outH", 0, 2600, 2500, "ID") wireVdd = _vdd.addWire() wireVdd.setStartPoint("pmos1", "S") wireVdd.setEndPoint(0) wireVss = _vss.addWire() wireVss.setStartPoint("nmos1", "S") wireVss.setEndPoint(0) wireIn0 = _in.addWire() wireIn1 = _in.addWire() wireIn0.setStartPoint("pmos1", "G") wireIn0.setEndPoint ("nmos1", "G") wireIn1.setStartPoint(0) wireIn1.setEndPoint ("pmos1", "G") wireOut0 = _out.addWire() wireOut1 = _out.addWire() wireOut0.setStartPoint("pmos1", "D") wireOut0.setEndPoint ("nmos1", "D") wireOut1.setStartPoint("nmos1", "D") wireOut1.setEndPoint (0) # sizing sizing = circuit.createSizing() op_pmos1 = sizing.addOperator("pmos1", "OPVG(Veg)" , "BSIM3V3", 0) op_pmos1.addConstraint("Temp", "design", "temp") op_pmos1.addConstraint("Ids" , "design", "Ids" ) op_pmos1.addConstraint("L" , "design", "L" ) op_pmos1.addConstraint("Veg" , "design", "Veg" ) op_pmos1.addConstraint("Vd" , "design", "Vdd", 0.5) op_pmos1.addConstraint("Vs" , "design", "Vdd" ) op_nmos1 = sizing.addOperator("nmos1", "OPW(Vg,Vs)", "BSIM3V3", 1) op_nmos1.addConstraint("Temp", "design", "temp") op_nmos1.addConstraint("Ids" , "design", "Ids" ) op_nmos1.addConstraint("L" , "design", "L" ) op_nmos1.addConstraint("Vs" , "design", "Vdd" ) op_nmos1.addConstraint("Vg" , "pmos1" , "Vg" ) op_nmos1.addConstraint("Vd" , "pmos1" , "Vd" ) op_nmos1.addConstraint("another", "myEq", -2.5 ) # layout layout = circuit.createLayout() layout.addInstance("pmos1", "Common transistor") layout.addInstance("nmos1", "Rotate transistor") circuit.writeToFile("./myInverter.xml")