* c:\esim\esim\src\subcircuitlibrary\mux\mux.cir * u3 net-_u1-pad2_ net-_u2-pad2_ net-_u3-pad3_ d_and * u4 net-_u1-pad1_ net-_u1-pad3_ net-_u4-pad3_ d_and * u5 net-_u3-pad3_ net-_u4-pad3_ net-_u1-pad4_ d_or * u2 net-_u1-pad1_ net-_u2-pad2_ d_inverter * u1 net-_u1-pad1_ net-_u1-pad2_ net-_u1-pad3_ net-_u1-pad4_ port a1 [net-_u1-pad2_ net-_u2-pad2_ ] net-_u3-pad3_ u3 a2 [net-_u1-pad1_ net-_u1-pad3_ ] net-_u4-pad3_ u4 a3 [net-_u3-pad3_ net-_u4-pad3_ ] net-_u1-pad4_ u5 a4 net-_u1-pad1_ net-_u2-pad2_ u2 * Schematic Name: d_and, NgSpice Name: d_and .model u3 d_and(fall_delay=1.0e-9 input_load=1.0e-12 rise_delay=1.0e-9 ) * Schematic Name: d_and, NgSpice Name: d_and .model u4 d_and(fall_delay=1.0e-9 input_load=1.0e-12 rise_delay=1.0e-9 ) * Schematic Name: d_or, NgSpice Name: d_or .model u5 d_or(fall_delay=1.0e-9 input_load=1.0e-12 rise_delay=1.0e-9 ) * Schematic Name: d_inverter, NgSpice Name: d_inverter .model u2 d_inverter(fall_delay=1.0e-9 input_load=1.0e-12 rise_delay=1.0e-9 ) .tran 10e-03 100e-03 0e-00 * Control Statements .control run print allv > plot_data_v.txt print alli > plot_data_i.txt .endc .end