\hypertarget{spice_spicePres}{}\section{Presentation}\label{spice_spicePres} The {\bfseries Spice} format was developped at the University of California, Berkeley. This parser/driver consists in a subset of S\+P\+I\+C\+E3 netlist format. (see \href{http://en.wikipedia.org/wiki/SPICE}{\tt http\+://en.\+wikipedia.\+org/wiki/\+S\+P\+I\+CE} for more informations).~\newline \hypertarget{spice_spiceAutrhos}{}\subsection{Author}\label{spice_spiceAutrhos} Damien Dupuis\+: damien.\+dupuis(at)lip6(.)fr\hypertarget{spice_spiceDB}{}\section{Stand alone database structure}\label{spice_spiceDB} The database consists in several objects\+: \begin{DoxyItemize} \item \mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit}{S\+P\+I\+C\+E\+::\+Circuit}} \item \mbox{\hyperlink{class_s_p_i_c_e_1_1_spice_exception}{S\+P\+I\+C\+E\+::\+Spice\+Exception}} \item \mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt}{S\+P\+I\+C\+E\+::\+Subckt}} \item \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{S\+P\+I\+C\+E\+::\+Instance}} \item \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{S\+P\+I\+C\+E\+::\+Mosfet}} \item \mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor}{S\+P\+I\+C\+E\+::\+Capacitor}} \item \mbox{\hyperlink{class_s_p_i_c_e_1_1_resistor}{S\+P\+I\+C\+E\+::\+Resistor}} \item \mbox{\hyperlink{class_s_p_i_c_e_1_1_source}{S\+P\+I\+C\+E\+::\+Source}} \item \mbox{\hyperlink{class_s_p_i_c_e_1_1_voltage}{S\+P\+I\+C\+E\+::\+Voltage}} \item \mbox{\hyperlink{class_s_p_i_c_e_1_1_current}{S\+P\+I\+C\+E\+::\+Current}} \end{DoxyItemize}\hypertarget{spice_spiceParser}{}\subsection{Using the parser}\label{spice_spiceParser} Simply load an Spice netlist file using the static function \mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_aa8294fe7d9ceddb5653d08ecae3eaf36}{S\+P\+I\+C\+E\+::\+Circuit\+::read\+From\+File()}}.\hypertarget{spice_spiceDriver}{}\subsection{Using the driver}\label{spice_spiceDriver} Using the driver is very simple, user has to create a \mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit}{S\+P\+I\+C\+E\+::\+Circuit}} object and simply add others Spice objects like \mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt}{S\+P\+I\+C\+E\+::\+Subckt}} or \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{S\+P\+I\+C\+E\+::\+Instance}} to it. Includes, libraries and parameters can also be added to \mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit}{S\+P\+I\+C\+E\+::\+Circuit}}. Finally use the S\+P\+I\+C\+E\+::\+Circuit\+::write\+To\+File() method to dump the database to file.\hypertarget{spice_spiceExamples}{}\section{Examples}\label{spice_spiceExamples} As said is the global presentation, V\+L\+SI S\+A\+PD project provides C++ libraries and Python modules for each supported format. In this section we present simple code examples to parse and drive a S\+P\+I\+CE file using C++ or Python. The S\+P\+I\+CE file considered describes a simple Miller O\+TA\+: {\ttfamily O\+T\+A\+\_\+miller.\+spi} \begin{DoxyCodeInclude} * Single-ended two-stage amplifier .PARAM CC\_VALUE=2.8794pF .PARAM L\_VALUE=0.340e-6 .SUBCKT currentMirrorPMOS d1 d2 s1 s2 param: l\_val=0.0 w\_val=0.0 nf\_val=1 aeq\_val=100e-6 temp\_val=27 MP3 d1 d1 s1 s1 psvt l=l\_val wf=\{w\_val/nf\_val\} nf=nf\_val aeq=aeq\_val tempsimu=temp\_val MP4 d2 d1 s2 s2 psvt l=l\_val wf=\{w\_val/nf\_val\} nf=nf\_val aeq=aeq\_val tempsimu=temp\_val .ENDS currentMirrorPMOS .SUBCKT diffPairNMOS d1 d2 g1 g2 s b param: l\_val=0.0 w\_val=0.0 nf\_val=1 aeq\_val=100e-6 temp\_val=27 MN1 d1 g1 s b nsvt l=l\_val wf=\{w\_val/nf\_val\} nf=nf\_val aeq=aeq\_val tempsimu=temp\_val MN2 d2 g2 s b nsvt l=l\_val wf=\{w\_val/nf\_val\} nf=nf\_val aeq=aeq\_val tempsimu=temp\_val .ENDS diffPairNMOS XCM 1 2 vdd vdd currentMirrorPMOS l\_val=L\_VALUE w\_val=3.889618e-06 nf\_val=2 XDP 1 2 vim vip 3 vss diffPairNMOS l\_val=L\_VALUE w\_val=7.683346e-07 nf\_val=4 MP6 vout 2 vdd vdd psvt l\_val=L\_VALUE w\_val=3.558995e-05 nf\_val=20 MN5 3 4 vss vss nsvt l\_val=L\_VALUE w\_val=2.536703e-06 nf\_val=4 MN7 vout 4 vss vss nsvt l\_val=L\_VALUE w\_val=1.069083e-05 nf\_val=16 MN8 4 4 vss vss nsvt l\_val=L\_VALUE w\_val=2.536703e-06 nf\_val=4 CC1 vout 2 CC\_VALUE .END \end{DoxyCodeInclude} All source codes are available in the {\ttfamily examples} directory.\hypertarget{spice_spiceC}{}\subsection{C++}\label{spice_spiceC} \hypertarget{spice_spiceParseC}{}\subsubsection{Parser}\label{spice_spiceParseC} The following code ({\ttfamily parse\+Spice.\+cpp}) is an example of how to parse a S\+P\+I\+CE file using C++ library. \begin{DoxyCodeInclude} \textcolor{preprocessor}{#include } \textcolor{preprocessor}{#include } \textcolor{preprocessor}{#include } \textcolor{preprocessor}{#include } \textcolor{preprocessor}{#include } \textcolor{keyword}{using namespace }\mbox{\hyperlink{namespacestd}{std}}; \textcolor{preprocessor}{#include "vlsisapd/spice/Circuit.h"} \textcolor{preprocessor}{#include "vlsisapd/spice/SpiceException.h"} \textcolor{preprocessor}{#include "vlsisapd/spice/Sources.h"} \textcolor{preprocessor}{#include "vlsisapd/spice/Subckt.h"} \textcolor{preprocessor}{#include "vlsisapd/spice/Instances.h"} \textcolor{keywordtype}{int} main(\textcolor{keywordtype}{int} argc, \textcolor{keywordtype}{char} * argv[]) \{ \textcolor{keywordtype}{string} file = \textcolor{stringliteral}{""}; \textcolor{keywordflow}{if} (argc == 1) file = \textcolor{stringliteral}{"./OTA.cir"}; \textcolor{keywordflow}{else} \textcolor{keywordflow}{if} (argc == 2) file = argv[1]; \textcolor{keywordflow}{else} \{ cerr << \textcolor{stringliteral}{"Usage: parseSpice [filename]"} << endl; exit(1); \} \mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit}{SPICE::Circuit}}* circuit = NULL; \textcolor{keywordflow}{try} \{ circuit = \mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_aa8294fe7d9ceddb5653d08ecae3eaf36}{SPICE::Circuit::readFromFile}}(file); \} \textcolor{keywordflow}{catch} (\mbox{\hyperlink{class_s_p_i_c_e_1_1_spice_exception}{SPICE::SpiceException}}& e) \{ cerr << e.what() << endl; exit(48); \} \textcolor{comment}{// if (!circuit) cerr << "circuit is NULL !!" << endl;} \textcolor{comment}{// TITLE} cerr << \textcolor{stringliteral}{"+ "} << circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_ad19721dd878c04c854a72af12d785741}{getTitle}}() << endl; \textcolor{comment}{// INCLUDES} vector includes = circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a312beaf640e84589e6644820355c8ed6}{getIncludes}}(); \textcolor{keywordflow}{if} (includes.size()) \{ cerr << \textcolor{stringliteral}{"| + includes"} << endl; \textcolor{keywordflow}{for} (\textcolor{keywordtype}{size\_t} i = 0 ; i < includes.size() ; i++) cerr << \textcolor{stringliteral}{"| | "} << includes[i] << endl; \} \textcolor{comment}{// LIBRARIES} vector > libs = circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a3e6a71a711e4796470f1a2a1dc42aef6}{getLibraries}}(); \textcolor{keywordflow}{if} (libs.size()) \{ cerr << \textcolor{stringliteral}{"| + libraries"} << endl; \textcolor{keywordflow}{for} (\textcolor{keywordtype}{size\_t} i = 0 ; i < libs.size() ; i++) cerr << \textcolor{stringliteral}{"| | "} << libs[i].first << \textcolor{stringliteral}{" "} << libs[i].second << endl; \} \textcolor{comment}{// PARAMETERS} map params = circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a4c46676f9ead2db537a0dd963b4f08f1}{getParameters}}(); \textcolor{keywordflow}{if} (params.size()) \{ cerr << \textcolor{stringliteral}{"| + parameters"} << endl; \textcolor{keywordflow}{for} (map::const\_iterator it = params.begin() ; it != params.end() ; ++it) cerr << \textcolor{stringliteral}{"| | "} << (*it).first << \textcolor{stringliteral}{" = "} << (*it).second << endl; \} \textcolor{comment}{// OPTIONS} map opts = circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a4ee11ef79ef893c5621e0e7d26a7f9a7}{getOptions}}(); \textcolor{keywordflow}{if} (opts.size()) \{ cerr << \textcolor{stringliteral}{"| + options"} << endl; \textcolor{keywordflow}{for} (map::const\_iterator it = opts.begin() ; it != opts.end() ; ++it) cerr << \textcolor{stringliteral}{"| | "} << (*it).first << \textcolor{stringliteral}{" = "} << (*it).second << endl; \} \textcolor{comment}{// SOURCES} vector sources = circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_ac18caa525ed386c44874ee643c88e27b}{getSources}}(); \textcolor{keywordflow}{if} (sources.size()) \{ cerr << \textcolor{stringliteral}{"| + sources"} << endl; \textcolor{keywordflow}{for} (\textcolor{keywordtype}{size\_t} i = 0 ; i < sources.size() ; i++) \{ \mbox{\hyperlink{class_s_p_i_c_e_1_1_source}{SPICE::Source}}* s = sources[i]; cerr << \textcolor{stringliteral}{"| | "} << s->\mbox{\hyperlink{class_s_p_i_c_e_1_1_source_ac0fc966d4386ddb71d99361e3fccb311}{getName}}() << \textcolor{stringliteral}{" "} << s->\mbox{\hyperlink{class_s_p_i_c_e_1_1_source_a1adb347b9a2c2da556e4417ab0eec0e1}{getPositive}}() << \textcolor{stringliteral}{" "} << s-> \mbox{\hyperlink{class_s_p_i_c_e_1_1_source_a8b4ab73ed1d99c533aa22af0a37ebb0d}{getNegative}}() << \textcolor{stringliteral}{" "} << s->\mbox{\hyperlink{class_s_p_i_c_e_1_1_source_a4c052cb2622c580a250b2c783a436882}{getValue}}() << endl; \} \} \textcolor{comment}{// SUBCKTS} vector subs = circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_adcc4ca0de68f8ee05f0d5db3b7604930}{getSubckts}}(); \textcolor{keywordflow}{if} (subs.size()) \{ cerr << \textcolor{stringliteral}{"| + subckts"} << endl; \textcolor{keywordflow}{for} (\textcolor{keywordtype}{size\_t} i = 0 ; i < subs.size() ; i++) \{ \mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt}{SPICE::Subckt}}* sub = subs[i]; cerr << \textcolor{stringliteral}{"| | + "} << sub->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_af55b1fe10eacd22c7ff3544b5ed32ef3}{getName}}(); \textcolor{keywordflow}{for} (\textcolor{keywordtype}{size\_t} j = 0 ; j < sub->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_a5df00fe6eb5e287abef28c76ce88bd1e}{getInterfaces}}().size() ; j++) cerr << \textcolor{stringliteral}{" "} << sub->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_a5df00fe6eb5e287abef28c76ce88bd1e}{getInterfaces}}()[j]; \textcolor{keywordflow}{if} (sub->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_aee7d59083b78d31ac5c19ab508da91e0}{getParameters}}().size()) \{ cerr << \textcolor{stringliteral}{" param:"}; \textcolor{keywordflow}{for} (map::const\_iterator it = sub->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_aee7d59083b78d31ac5c19ab508da91e0}{getParameters}}().begin() ; it != sub->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_aee7d59083b78d31ac5c19ab508da91e0}{getParameters}}().end() ; ++it) cerr << \textcolor{stringliteral}{" "} << (*it).first << \textcolor{stringliteral}{"="} << (*it).second; \} cerr << endl; \textcolor{keywordflow}{for} (\textcolor{keywordtype}{size\_t} j = 0 ; j < sub->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_a8e6e58ffab876152a740092520c35d73}{getInstances}}().size() ; j++) \{ \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* inst = sub->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_a8e6e58ffab876152a740092520c35d73}{getInstances}}()[j]; cerr << \textcolor{stringliteral}{"| | | + "} << inst->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_ac0fc966d4386ddb71d99361e3fccb311}{getName}}(); \textcolor{keywordflow}{if} (dynamic\_cast(inst)) \{ \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}* mos = \textcolor{keyword}{static\_cast<}\mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}*\textcolor{keyword}{>}(inst); cerr << \textcolor{stringliteral}{" "} << mos->\mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet_a7265f0565b8368070a3f09c6197a4e9b}{getDrain}}() << \textcolor{stringliteral}{" "} << mos-> \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet_a796d77755aac0828419f55ba2226bf15}{getGrid}}() << \textcolor{stringliteral}{" "} << mos->\mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet_a1791f52b6b5043823c6f3376e8453e3a}{getSource}}() << \textcolor{stringliteral}{" "} << mos->\mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet_a56484a169335450d6043ee20086ead93}{getBulk}}() << \textcolor{stringliteral}{" "} << mos-> \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_afc74cbe93df9c473a53db83a325f8f9d}{getModel}}(); \textcolor{keywordtype}{int} k = 0; \textcolor{keywordflow}{for} (map::const\_iterator it =mos-> \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_aee7d59083b78d31ac5c19ab508da91e0}{getParameters}}().begin() ; it != mos->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_aee7d59083b78d31ac5c19ab508da91e0}{getParameters}}().end(); ++it, k++) \{ \textcolor{keywordflow}{if} (k%6 == 0) cerr << endl << \textcolor{stringliteral}{"| | | | +"}; cerr << \textcolor{stringliteral}{" "} << (*it).first << \textcolor{stringliteral}{"="} << (*it).second; \} \} \textcolor{keywordflow}{else} \textcolor{keywordflow}{if} (dynamic\_cast(inst)) \{ \mbox{\hyperlink{class_s_p_i_c_e_1_1_resistor}{SPICE::Resistor}}* res = \textcolor{keyword}{static\_cast<} \mbox{\hyperlink{class_s_p_i_c_e_1_1_resistor}{SPICE::Resistor}}*\textcolor{keyword}{>}(inst); cerr << \textcolor{stringliteral}{" "} << res->\mbox{\hyperlink{class_s_p_i_c_e_1_1_resistor_ab57aa52f48a5a56c89dd49eae66c1a0f}{getFirst}}() << \textcolor{stringliteral}{" "} << res-> \mbox{\hyperlink{class_s_p_i_c_e_1_1_resistor_a9665313821b2fca41e14b9865133af7f}{getSecond}}() << \textcolor{stringliteral}{" "} << res->\mbox{\hyperlink{class_s_p_i_c_e_1_1_resistor_a4c052cb2622c580a250b2c783a436882}{getValue}}(); \} \textcolor{keywordflow}{else} \textcolor{keywordflow}{if} (dynamic\_cast(inst)) \{ \mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor}{SPICE::Capacitor}}* capa = \textcolor{keyword}{static\_cast<} \mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor}{SPICE::Capacitor}}*\textcolor{keyword}{>}(inst); cerr << \textcolor{stringliteral}{" "} << capa->\mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor_a1adb347b9a2c2da556e4417ab0eec0e1}{getPositive}}() << \textcolor{stringliteral}{" "} << capa-> \mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor_a8b4ab73ed1d99c533aa22af0a37ebb0d}{getNegative}}() << \textcolor{stringliteral}{" "} << capa->\mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor_a4c052cb2622c580a250b2c783a436882}{getValue}}(); \} \textcolor{keywordflow}{else} \{ \textcolor{keywordflow}{for} (\textcolor{keywordtype}{size\_t} k = 0 ; k < inst->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_acce8940edeaa3d79c522006f987e0711}{getConnectors}}().size() ; k++) cerr << \textcolor{stringliteral}{" "} << inst->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_acce8940edeaa3d79c522006f987e0711}{getConnectors}}()[k]; cerr << \textcolor{stringliteral}{" "} << inst->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_afc74cbe93df9c473a53db83a325f8f9d}{getModel}}(); \textcolor{keywordtype}{int} l = 0; \textcolor{keywordflow}{for} (map::const\_iterator it = inst-> \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_aee7d59083b78d31ac5c19ab508da91e0}{getParameters}}().begin() ; it != inst->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_aee7d59083b78d31ac5c19ab508da91e0}{getParameters}}().end() ; ++it, l++) \{ \textcolor{keywordflow}{if} (l%6 == 0) cerr << endl << \textcolor{stringliteral}{"| | | | +"}; cerr << \textcolor{stringliteral}{" "} << (*it).first << \textcolor{stringliteral}{"="} << (*it).second; \} \} cerr << endl; \} \} \} \textcolor{comment}{// INSTANCES} vector insts = circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a8e6e58ffab876152a740092520c35d73}{getInstances}}(); \textcolor{keywordflow}{if} (insts.size()) \{ cerr << \textcolor{stringliteral}{"| + instances"} << endl; \textcolor{keywordflow}{for} (\textcolor{keywordtype}{size\_t} i = 0 ; i < insts.size() ; i++) \{ \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* inst = insts[i]; cerr << \textcolor{stringliteral}{"| | + "} << inst->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_ac0fc966d4386ddb71d99361e3fccb311}{getName}}(); \textcolor{keywordflow}{if} (dynamic\_cast(inst)) \{ \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}* mos = \textcolor{keyword}{static\_cast<}\mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}*\textcolor{keyword}{>}(inst); cerr << \textcolor{stringliteral}{" "} << mos->\mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet_a7265f0565b8368070a3f09c6197a4e9b}{getDrain}}() << \textcolor{stringliteral}{" "} << mos->\mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet_a796d77755aac0828419f55ba2226bf15}{getGrid}}() << \textcolor{stringliteral}{" "} << mos-> \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet_a1791f52b6b5043823c6f3376e8453e3a}{getSource}}() << \textcolor{stringliteral}{" "} << mos->\mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet_a56484a169335450d6043ee20086ead93}{getBulk}}() << \textcolor{stringliteral}{" "} << mos->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_afc74cbe93df9c473a53db83a325f8f9d}{getModel}}(); \textcolor{keywordtype}{int} j = 0; \textcolor{keywordflow}{for} (map::const\_iterator it =mos->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_aee7d59083b78d31ac5c19ab508da91e0}{getParameters}}().begin() ; it != mos->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_aee7d59083b78d31ac5c19ab508da91e0}{getParameters}}().end(); ++it, j++) \{ \textcolor{keywordflow}{if} (j%6 == 0) cerr << endl << \textcolor{stringliteral}{"| | | | +"}; cerr << \textcolor{stringliteral}{" "} << (*it).first << \textcolor{stringliteral}{"="} << (*it).second; \} \} \textcolor{keywordflow}{else} \textcolor{keywordflow}{if} (dynamic\_cast(inst)) \{ \mbox{\hyperlink{class_s_p_i_c_e_1_1_resistor}{SPICE::Resistor}}* res = \textcolor{keyword}{static\_cast<} \mbox{\hyperlink{class_s_p_i_c_e_1_1_resistor}{SPICE::Resistor}}*\textcolor{keyword}{>}(inst); cerr << \textcolor{stringliteral}{" "} << res->\mbox{\hyperlink{class_s_p_i_c_e_1_1_resistor_ab57aa52f48a5a56c89dd49eae66c1a0f}{getFirst}}() << \textcolor{stringliteral}{" "} << res->\mbox{\hyperlink{class_s_p_i_c_e_1_1_resistor_a9665313821b2fca41e14b9865133af7f}{getSecond}}() << \textcolor{stringliteral}{" "} << res-> \mbox{\hyperlink{class_s_p_i_c_e_1_1_resistor_a4c052cb2622c580a250b2c783a436882}{getValue}}(); \} \textcolor{keywordflow}{else} \textcolor{keywordflow}{if} (dynamic\_cast(inst)) \{ \mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor}{SPICE::Capacitor}}* capa = \textcolor{keyword}{static\_cast<} \mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor}{SPICE::Capacitor}}*\textcolor{keyword}{>}(inst); cerr << \textcolor{stringliteral}{" "} << capa->\mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor_a1adb347b9a2c2da556e4417ab0eec0e1}{getPositive}}() << \textcolor{stringliteral}{" "} << capa-> \mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor_a8b4ab73ed1d99c533aa22af0a37ebb0d}{getNegative}}() << \textcolor{stringliteral}{" "} << capa->\mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor_a4c052cb2622c580a250b2c783a436882}{getValue}}(); \} \textcolor{keywordflow}{else} \{ \textcolor{keywordflow}{for} (\textcolor{keywordtype}{size\_t} k = 0 ; k < inst->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_acce8940edeaa3d79c522006f987e0711}{getConnectors}}().size() ; k++) cerr << \textcolor{stringliteral}{" "} << inst->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_acce8940edeaa3d79c522006f987e0711}{getConnectors}}()[k]; cerr << \textcolor{stringliteral}{" "} << inst->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_afc74cbe93df9c473a53db83a325f8f9d}{getModel}}(); \textcolor{keywordtype}{int} l = 0; \textcolor{keywordflow}{for} (map::const\_iterator it = inst-> \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_aee7d59083b78d31ac5c19ab508da91e0}{getParameters}}().begin() ; it != inst->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_aee7d59083b78d31ac5c19ab508da91e0}{getParameters}}().end() ; ++it, l++) \{ \textcolor{keywordflow}{if} (l%6 == 0) cerr << endl << \textcolor{stringliteral}{"| | | +"}; cerr << \textcolor{stringliteral}{" "} << (*it).first << \textcolor{stringliteral}{"="} << (*it).second; \} \} cerr << endl; \} \} \textcolor{keywordflow}{return} 0; \} \end{DoxyCodeInclude} \hypertarget{spice_spiceDriveC}{}\subsubsection{Driver}\label{spice_spiceDriveC} This C++ code ({\ttfamily drive\+Spice.\+cpp}) generates an my\+O\+T\+A.\+spi file equivalent to the included one. \begin{DoxyCodeInclude} \textcolor{preprocessor}{#include } \textcolor{keyword}{using namespace }\mbox{\hyperlink{namespacestd}{std}}; \textcolor{preprocessor}{#include "vlsisapd/spice/Circuit.h"} \textcolor{preprocessor}{#include "vlsisapd/spice/Subckt.h"} \textcolor{preprocessor}{#include "vlsisapd/spice/Instances.h"} \textcolor{keywordtype}{int} main(\textcolor{keywordtype}{int} argc, \textcolor{keywordtype}{char} * argv[]) \{ \mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit}{SPICE::Circuit}}* circuit = \textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit}{SPICE::Circuit}}(); circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a798df9ebd558e22c85eeceb5202e3123}{setTitle}}(\textcolor{stringliteral}{"* Single-ended two-stage amplifier"}); \textcolor{comment}{// PARAMS} circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"CC\_VALUE"}, \textcolor{stringliteral}{"2.8794pF"}); circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"L\_VALUE"} , \textcolor{stringliteral}{"0.340e-6"}); \textcolor{comment}{// SUBCKTS} \textcolor{comment}{// CurrentMirror} \mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt}{SPICE::Subckt}}* CM = circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a0d1352e46d4537ce1e5f651de40e91a6}{addSubckt}}(\textcolor{stringliteral}{"currentMirrorPMOS"}); CM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ac162264683fa3d9b3384d3e8cc291fa2}{addInterface}}(\textcolor{stringliteral}{"d1"}); CM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ac162264683fa3d9b3384d3e8cc291fa2}{addInterface}}(\textcolor{stringliteral}{"d2"}); CM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ac162264683fa3d9b3384d3e8cc291fa2}{addInterface}}(\textcolor{stringliteral}{"s1"}); CM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ac162264683fa3d9b3384d3e8cc291fa2}{addInterface}}(\textcolor{stringliteral}{"s2"}); CM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"0.0"} ); CM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"0.0"} ); CM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"nf\_val"} , \textcolor{stringliteral}{"1"} ); CM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"aeq\_val"} , \textcolor{stringliteral}{"100e-6"}); CM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"temp\_val"}, \textcolor{stringliteral}{"27"} ); \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* cmP3 = \textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}(\textcolor{stringliteral}{"P3"}, \textcolor{stringliteral}{"d1"}, \textcolor{stringliteral}{"d1"}, \textcolor{stringliteral}{"s1"}, \textcolor{stringliteral}{"s1"}, \textcolor{stringliteral}{" psvt"}); cmP3->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"l"} , \textcolor{stringliteral}{"l\_val"} ); cmP3->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"wf"} , \textcolor{stringliteral}{"\{w\_val/nf\_val\}"}); cmP3->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"nf"} , \textcolor{stringliteral}{"nf\_val"} ); cmP3->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"aeq"} , \textcolor{stringliteral}{"aeq\_val"} ); cmP3->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"tempsimu"}, \textcolor{stringliteral}{"temp\_val"} ); CM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_a7bb4a4532643568ab1ac2c229185a88e}{addInstance}}(cmP3); \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* cmP4 = \textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}(\textcolor{stringliteral}{"P4"}, \textcolor{stringliteral}{"d2"}, \textcolor{stringliteral}{"d1"}, \textcolor{stringliteral}{"s2"}, \textcolor{stringliteral}{"s2"}, \textcolor{stringliteral}{" psvt"}); cmP4->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"l"} , \textcolor{stringliteral}{"l\_val"} ); cmP4->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"wf"} , \textcolor{stringliteral}{"\{w\_val/nf\_val\}"}); cmP4->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"nf"} , \textcolor{stringliteral}{"nf\_val"} ); cmP4->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"aeq"} , \textcolor{stringliteral}{"aeq\_val"} ); cmP4->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"tempsimu"}, \textcolor{stringliteral}{"temp\_val"} ); CM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_a7bb4a4532643568ab1ac2c229185a88e}{addInstance}}(cmP4); \textcolor{comment}{// DifferentialPair} \mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt}{SPICE::Subckt}}* DP = circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a0d1352e46d4537ce1e5f651de40e91a6}{addSubckt}}(\textcolor{stringliteral}{"diffPairNMOS"}); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ac162264683fa3d9b3384d3e8cc291fa2}{addInterface}}(\textcolor{stringliteral}{"d1"}); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ac162264683fa3d9b3384d3e8cc291fa2}{addInterface}}(\textcolor{stringliteral}{"d2"}); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ac162264683fa3d9b3384d3e8cc291fa2}{addInterface}}(\textcolor{stringliteral}{"g1"}); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ac162264683fa3d9b3384d3e8cc291fa2}{addInterface}}(\textcolor{stringliteral}{"g2"}); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ac162264683fa3d9b3384d3e8cc291fa2}{addInterface}}(\textcolor{stringliteral}{"s"}); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ac162264683fa3d9b3384d3e8cc291fa2}{addInterface}}(\textcolor{stringliteral}{"b"}); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"0.0"} ); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"0.0"} ); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"nf\_val"} , \textcolor{stringliteral}{"1"} ); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"aeq\_val"} , \textcolor{stringliteral}{"100e-6"}); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_ab3ab147a16bc490ce96db905a4ca271c}{addParameter}}(\textcolor{stringliteral}{"temp\_val"}, \textcolor{stringliteral}{"27"} ); \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* dpN1 = \textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}(\textcolor{stringliteral}{"N1"}, \textcolor{stringliteral}{"d1"}, \textcolor{stringliteral}{"g1"}, \textcolor{stringliteral}{"s"}, \textcolor{stringliteral}{"b"}, \textcolor{stringliteral}{"nsvt "}); dpN1->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"l"} , \textcolor{stringliteral}{"l\_val"} ); dpN1->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"wf"} , \textcolor{stringliteral}{"\{w\_val/nf\_val\}"}); dpN1->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"nf"} , \textcolor{stringliteral}{"nf\_val"} ); dpN1->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"aeq"} , \textcolor{stringliteral}{"aeq\_val"} ); dpN1->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"tempsimu"}, \textcolor{stringliteral}{"temp\_val"} ); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_a7bb4a4532643568ab1ac2c229185a88e}{addInstance}}(dpN1); \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* dpN2 = \textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}(\textcolor{stringliteral}{"N2"}, \textcolor{stringliteral}{"d2"}, \textcolor{stringliteral}{"g2"}, \textcolor{stringliteral}{"s"}, \textcolor{stringliteral}{"b"}, \textcolor{stringliteral}{"nsvt "}); dpN2->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"l"} , \textcolor{stringliteral}{"l\_val"} ); dpN2->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"wf"} , \textcolor{stringliteral}{"\{w\_val/nf\_val\}"}); dpN2->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"nf"} , \textcolor{stringliteral}{"nf\_val"} ); dpN2->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"aeq"} , \textcolor{stringliteral}{"aeq\_val"} ); dpN2->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"tempsimu"}, \textcolor{stringliteral}{"temp\_val"} ); DP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_subckt_a7bb4a4532643568ab1ac2c229185a88e}{addInstance}}(dpN2); \textcolor{comment}{//INSTANCES} \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* iCM = \textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}(\textcolor{stringliteral}{"CM"}, \textcolor{stringliteral}{"currentMirrorPMOS"}); iCM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_af9aeca34e780851a2b024df7c5ff5b54}{addConnector}}(\textcolor{stringliteral}{"1"}); iCM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_af9aeca34e780851a2b024df7c5ff5b54}{addConnector}}(\textcolor{stringliteral}{"2"}); iCM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_af9aeca34e780851a2b024df7c5ff5b54}{addConnector}}(\textcolor{stringliteral}{"vdd"}); iCM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_af9aeca34e780851a2b024df7c5ff5b54}{addConnector}}(\textcolor{stringliteral}{"vdd"}); iCM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iCM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"3.889618e-06"}); iCM->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"2"} ); circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a7bb4a4532643568ab1ac2c229185a88e}{addInstance}}(iCM); \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* iDP = \textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}(\textcolor{stringliteral}{"DP"}, \textcolor{stringliteral}{"diffPairNMOS"}); iDP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_af9aeca34e780851a2b024df7c5ff5b54}{addConnector}}(\textcolor{stringliteral}{"1"}); iDP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_af9aeca34e780851a2b024df7c5ff5b54}{addConnector}}(\textcolor{stringliteral}{"2"}); iDP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_af9aeca34e780851a2b024df7c5ff5b54}{addConnector}}(\textcolor{stringliteral}{"vim"}); iDP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_af9aeca34e780851a2b024df7c5ff5b54}{addConnector}}(\textcolor{stringliteral}{"vip"}); iDP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_af9aeca34e780851a2b024df7c5ff5b54}{addConnector}}(\textcolor{stringliteral}{"3"}); iDP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_af9aeca34e780851a2b024df7c5ff5b54}{addConnector}}(\textcolor{stringliteral}{"vss"}); iDP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iDP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"7.683346e-07"}); iDP->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"4"} ); circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a7bb4a4532643568ab1ac2c229185a88e}{addInstance}}(iDP); \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* iP6 = \textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}(\textcolor{stringliteral}{"P6"}, \textcolor{stringliteral}{"vout"}, \textcolor{stringliteral}{"2"}, \textcolor{stringliteral}{"vdd"}, \textcolor{stringliteral}{"vdd"}, \textcolor{stringliteral}{" psvt"}); iP6->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iP6->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"3.558995e-05"}); iP6->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"20"} ); circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a7bb4a4532643568ab1ac2c229185a88e}{addInstance}}(iP6); \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* iN5 = \textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}(\textcolor{stringliteral}{"N5"}, \textcolor{stringliteral}{"3"}, \textcolor{stringliteral}{"4"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{" nsvt"}); iN5->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iN5->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"2.536703e-06"}); iN5->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"4"} ); circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a7bb4a4532643568ab1ac2c229185a88e}{addInstance}}(iN5); \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* iN7 = \textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}(\textcolor{stringliteral}{"N7"}, \textcolor{stringliteral}{"vout"}, \textcolor{stringliteral}{"4"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{" nsvt"}); iN7->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iN7->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"1.069083e-05"}); iN7->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"16"} ); circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a7bb4a4532643568ab1ac2c229185a88e}{addInstance}}(iN7); \mbox{\hyperlink{class_s_p_i_c_e_1_1_instance}{SPICE::Instance}}* iN8 = \textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_mosfet}{SPICE::Mosfet}}(\textcolor{stringliteral}{"N8"}, \textcolor{stringliteral}{"4"}, \textcolor{stringliteral}{"4"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{" nsvt"}); iN8->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iN8->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"2.536703e-06"}); iN8->\mbox{\hyperlink{class_s_p_i_c_e_1_1_instance_a8d69bbbea5ece0949e100c464e412f20}{addParameter}}(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"4"} ); circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a7bb4a4532643568ab1ac2c229185a88e}{addInstance}}(iN8); circuit->\mbox{\hyperlink{class_s_p_i_c_e_1_1_circuit_a7bb4a4532643568ab1ac2c229185a88e}{addInstance}}(\textcolor{keyword}{new} \mbox{\hyperlink{class_s_p_i_c_e_1_1_capacitor}{SPICE::Capacitor}}(\textcolor{stringliteral}{"C1"}, \textcolor{stringliteral}{"vout"}, \textcolor{stringliteral}{"2"}, \textcolor{stringliteral}{"CC\_VALUE"})); circuit->writeToFile(\textcolor{stringliteral}{"./myOTA.spi"}); \textcolor{keywordflow}{return} 0; \} \end{DoxyCodeInclude} \begin{DoxyNote}{Note} In order to compile these codes, a C\+Make\+Lists.\+txt file is provided. User must set the \$\+V\+L\+S\+I\+S\+A\+P\+D\+\_\+\+T\+OP variable before running these commands in the directory containing the C\+Make\+Lists.\+txt file\+: \begin{DoxyCode} %> mkdir build; cd build %> cmake .. %> make \end{DoxyCode} \end{DoxyNote} \hypertarget{spice_spicePython}{}\subsection{Python}\label{spice_spicePython} \hypertarget{spice_spiceParsePython}{}\subsubsection{Parser}\label{spice_spiceParsePython} The following python script ({\ttfamily parse\+Spice.\+py}) is an example of how to parse a S\+P\+I\+CE file using python module. \begin{DoxyCodeInclude} \textcolor{keyword}{import} sys \textcolor{keyword}{from} SPICE \textcolor{keyword}{import} * \textcolor{keyword}{def }printContents(circuit): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"+"}, circuit.title \textcolor{keywordflow}{if} len(circuit.getIncludes()): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| + includes"} \textcolor{keywordflow}{for} include \textcolor{keywordflow}{in} circuit.getIncludes(): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| |"}, include \textcolor{keywordflow}{if} len(circuit.getLibraries()): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| + libraries"} \textcolor{keywordflow}{for} (lib, typ) \textcolor{keywordflow}{in} circuit.getLibraries(): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| |"}, lib, typ \textcolor{keywordflow}{if} len(circuit.getParameters()): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| + parameters"} \textcolor{keywordflow}{for} (name, value) \textcolor{keywordflow}{in} circuit.getParameters().items(): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| | %s=%s"}%(name, value) \textcolor{keywordflow}{if} len(circuit.getOptions()): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| + options"} \textcolor{keywordflow}{for} (name, value) \textcolor{keywordflow}{in} circuit.getOptions().items(): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| | %s=%s"}%(name, value) \textcolor{keywordflow}{if} len(circuit.getSources()): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| + sources"} \textcolor{keywordflow}{for} source \textcolor{keywordflow}{in} circuit.getSources(): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| |"}, source.getName(), source.getPositive(), source.getNegative(), source.getValue() \textcolor{keywordflow}{if} len(circuit.getSubckts()): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| + subckts"} \textcolor{keywordflow}{for} sub \textcolor{keywordflow}{in} circuit.getSubckts(): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| | +"}, sub.getName(), \textcolor{keywordflow}{for} interf \textcolor{keywordflow}{in} sub.getInterfaces(): \textcolor{keywordflow}{print} interf, \textcolor{keywordflow}{if} len(sub.getParameters()): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"param:"}, \textcolor{keywordflow}{for} (name, value) \textcolor{keywordflow}{in} sub.getParameters().items(): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"%s=%s"}%(name,value), \textcolor{keywordflow}{print} \textcolor{keywordflow}{for} inst \textcolor{keywordflow}{in} sub.getInstances(): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| | | +"}, inst.getName(), \textcolor{keywordflow}{if} isinstance(inst, Mosfet): \textcolor{keywordflow}{print} inst.getDrain(), inst.getGrid(), inst.getSource(), inst.getBulk(), inst.getModel(), i = 0 \textcolor{keywordflow}{for} (name, value) \textcolor{keywordflow}{in} inst.getParameters().items(): \textcolor{keywordflow}{if} i%6 == 0: \textcolor{keywordflow}{print} \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| | | | +"}, \textcolor{keywordflow}{print} \textcolor{stringliteral}{"%s=%s"}%(name, value), i += 1 \textcolor{keywordflow}{elif} isinstance(inst, Resistor): \textcolor{keywordflow}{print} inst.getFirst(), inst.getSecond(), inst.getValue(), \textcolor{keywordflow}{elif} isinstance(inst, Capacitor): \textcolor{keywordflow}{print} inst.getPositive(), inst.getNegative(), inst.getValue(), \textcolor{keywordflow}{else}: \textcolor{keywordflow}{for} conn \textcolor{keywordflow}{in} inst.getConnectors(): \textcolor{keywordflow}{print} conn, \textcolor{keywordflow}{print} inst.getModel(), i = 0 \textcolor{keywordflow}{for} (name, value) \textcolor{keywordflow}{in} inst.getParameters().items(): \textcolor{keywordflow}{if} i%6 == 0: \textcolor{keywordflow}{print} \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| | | | +"}, \textcolor{keywordflow}{print} \textcolor{stringliteral}{"%s=%s"}%(name, value), i += 1 \textcolor{keywordflow}{print} \textcolor{keywordflow}{if} len(circuit.getInstances()): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| + instances"} \textcolor{keywordflow}{for} inst \textcolor{keywordflow}{in} circuit.getInstances(): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| | | +"}, inst.getName(), \textcolor{keywordflow}{if} isinstance(inst, Mosfet): \textcolor{keywordflow}{print} inst.getDrain(), inst.getGrid(), inst.getSource(), inst.getBulk(), inst.getModel(), i = 0 \textcolor{keywordflow}{for} (name, value) \textcolor{keywordflow}{in} inst.getParameters().items(): \textcolor{keywordflow}{if} i%6 == 0: \textcolor{keywordflow}{print} \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| | | | +"}, \textcolor{keywordflow}{print} \textcolor{stringliteral}{"%s=%s"}%(name, value), i += 1 \textcolor{keywordflow}{elif} isinstance(inst, Resistor): \textcolor{keywordflow}{print} inst.getFirst(), inst.getSecond(), inst.getValue(), \textcolor{keywordflow}{elif} isinstance(inst, Capacitor): \textcolor{keywordflow}{print} inst.getPositive(), inst.getNegative(), inst.getValue(), \textcolor{keywordflow}{else}: \textcolor{keywordflow}{for} conn \textcolor{keywordflow}{in} inst.getConnectors(): \textcolor{keywordflow}{print} conn, \textcolor{keywordflow}{print} inst.getModel(), i = 0 \textcolor{keywordflow}{for} (name, value) \textcolor{keywordflow}{in} inst.getParameters().items(): \textcolor{keywordflow}{if} i%6 == 0: \textcolor{keywordflow}{print} \textcolor{keywordflow}{print} \textcolor{stringliteral}{"| | | | +"}, \textcolor{keywordflow}{print} \textcolor{stringliteral}{"%s=%s"}%(name, value), i += 1 \textcolor{keywordflow}{print} \textcolor{keyword}{def }usage(): \textcolor{keywordflow}{print} \textcolor{stringliteral}{"usage:"}, sys.argv[0], \textcolor{stringliteral}{"[filename]"} sys.exit(48) \textcolor{keyword}{def }main(): \textcolor{keywordflow}{if} len(sys.argv) == 1: filename = \textcolor{stringliteral}{"./OTA\_miller.spi"} \textcolor{keywordflow}{elif} len(sys.argv) == 2: filename = sys.argv[1] \textcolor{keywordflow}{else}: usage() circuit = Circuit.readFromFile(filename) printContents(circuit) \textcolor{keywordflow}{if} \_\_name\_\_ == \textcolor{stringliteral}{"\_\_main\_\_"}: main() \end{DoxyCodeInclude} \hypertarget{spice_spiceDrivePython}{}\subsubsection{Driver}\label{spice_spiceDrivePython} This python script ({\ttfamily drive\+Spice.\+py}) generates an my\+O\+T\+A.\+spi file equivalent to the included one. \begin{DoxyCodeInclude} \textcolor{keyword}{from} SPICE \textcolor{keyword}{import} * circuit = \mbox{\hyperlink{class_circuit}{Circuit}}() circuit.title = \textcolor{stringliteral}{'* Single-ended two-stage amplifier'} \textcolor{comment}{# PARAMS} circuit.addParameter(\textcolor{stringliteral}{"CC\_VALUE"}, \textcolor{stringliteral}{"2.8794pF"}); circuit.addParameter(\textcolor{stringliteral}{"L\_VALUE"} , \textcolor{stringliteral}{"0.340e-6"}); \textcolor{comment}{# SUBCKTS} \textcolor{comment}{# CurrentMirror} CM = circuit.addSubckt(\textcolor{stringliteral}{"currentMirrorPMOS"}); CM.addInterface(\textcolor{stringliteral}{"d1"}); CM.addInterface(\textcolor{stringliteral}{"d2"}); CM.addInterface(\textcolor{stringliteral}{"s1"}); CM.addInterface(\textcolor{stringliteral}{"s2"}); CM.addParameter(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"0.0"} ); CM.addParameter(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"0.0"} ); CM.addParameter(\textcolor{stringliteral}{"nf\_val"} , \textcolor{stringliteral}{"1"} ); CM.addParameter(\textcolor{stringliteral}{"aeq\_val"} , \textcolor{stringliteral}{"100e-6"}); CM.addParameter(\textcolor{stringliteral}{"temp\_val"}, \textcolor{stringliteral}{"27"} ); cmP3 = Mosfet(\textcolor{stringliteral}{"P3"}, \textcolor{stringliteral}{"d1"}, \textcolor{stringliteral}{"d1"}, \textcolor{stringliteral}{"s1"}, \textcolor{stringliteral}{"s1"}, \textcolor{stringliteral}{"psvt"}); cmP3.addParameter(\textcolor{stringliteral}{"l"} , \textcolor{stringliteral}{"l\_val"} ); cmP3.addParameter(\textcolor{stringliteral}{"wf"} , \textcolor{stringliteral}{"\{w\_val/nf\_val\}"}); cmP3.addParameter(\textcolor{stringliteral}{"nf"} , \textcolor{stringliteral}{"nf\_val"} ); cmP3.addParameter(\textcolor{stringliteral}{"aeq"} , \textcolor{stringliteral}{"aeq\_val"} ); cmP3.addParameter(\textcolor{stringliteral}{"tempsimu"}, \textcolor{stringliteral}{"temp\_val"} ); CM.addInstance(cmP3); cmP4 = Mosfet(\textcolor{stringliteral}{"P4"}, \textcolor{stringliteral}{"d2"}, \textcolor{stringliteral}{"d1"}, \textcolor{stringliteral}{"s2"}, \textcolor{stringliteral}{"s2"}, \textcolor{stringliteral}{"psvt"}); cmP4.addParameter(\textcolor{stringliteral}{"l"} , \textcolor{stringliteral}{"l\_val"} ); cmP4.addParameter(\textcolor{stringliteral}{"wf"} , \textcolor{stringliteral}{"\{w\_val/nf\_val\}"}); cmP4.addParameter(\textcolor{stringliteral}{"nf"} , \textcolor{stringliteral}{"nf\_val"} ); cmP4.addParameter(\textcolor{stringliteral}{"aeq"} , \textcolor{stringliteral}{"aeq\_val"} ); cmP4.addParameter(\textcolor{stringliteral}{"tempsimu"}, \textcolor{stringliteral}{"temp\_val"} ); CM.addInstance(cmP4); \textcolor{comment}{# DifferentialPair} DP = circuit.addSubckt(\textcolor{stringliteral}{"diffPairNMOS"}); DP.addInterface(\textcolor{stringliteral}{"d1"}); DP.addInterface(\textcolor{stringliteral}{"d2"}); DP.addInterface(\textcolor{stringliteral}{"g1"}); DP.addInterface(\textcolor{stringliteral}{"g2"}); DP.addInterface(\textcolor{stringliteral}{"s"}); DP.addInterface(\textcolor{stringliteral}{"b"}); DP.addParameter(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"0.0"} ); DP.addParameter(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"0.0"} ); DP.addParameter(\textcolor{stringliteral}{"nf\_val"} , \textcolor{stringliteral}{"1"} ); DP.addParameter(\textcolor{stringliteral}{"aeq\_val"} , \textcolor{stringliteral}{"100e-6"}); DP.addParameter(\textcolor{stringliteral}{"temp\_val"}, \textcolor{stringliteral}{"27"} ); dpN1 = Mosfet(\textcolor{stringliteral}{"N1"}, \textcolor{stringliteral}{"d1"}, \textcolor{stringliteral}{"g1"}, \textcolor{stringliteral}{"s"}, \textcolor{stringliteral}{"b"}, \textcolor{stringliteral}{"nsvt"}); dpN1.addParameter(\textcolor{stringliteral}{"l"} , \textcolor{stringliteral}{"l\_val"} ); dpN1.addParameter(\textcolor{stringliteral}{"wf"} , \textcolor{stringliteral}{"\{w\_val/nf\_val\}"}); dpN1.addParameter(\textcolor{stringliteral}{"nf"} , \textcolor{stringliteral}{"nf\_val"} ); dpN1.addParameter(\textcolor{stringliteral}{"aeq"} , \textcolor{stringliteral}{"aeq\_val"} ); dpN1.addParameter(\textcolor{stringliteral}{"tempsimu"}, \textcolor{stringliteral}{"temp\_val"} ); DP.addInstance(dpN1); dpN2 = Mosfet(\textcolor{stringliteral}{"N2"}, \textcolor{stringliteral}{"d2"}, \textcolor{stringliteral}{"g2"}, \textcolor{stringliteral}{"s"}, \textcolor{stringliteral}{"b"}, \textcolor{stringliteral}{"nsvt"}); dpN2.addParameter(\textcolor{stringliteral}{"l"} , \textcolor{stringliteral}{"l\_val"} ); dpN2.addParameter(\textcolor{stringliteral}{"wf"} , \textcolor{stringliteral}{"\{w\_val/nf\_val\}"}); dpN2.addParameter(\textcolor{stringliteral}{"nf"} , \textcolor{stringliteral}{"nf\_val"} ); dpN2.addParameter(\textcolor{stringliteral}{"aeq"} , \textcolor{stringliteral}{"aeq\_val"} ); dpN2.addParameter(\textcolor{stringliteral}{"tempsimu"}, \textcolor{stringliteral}{"temp\_val"} ); DP.addInstance(dpN2); \textcolor{comment}{# INSTANCES} iCM = \mbox{\hyperlink{class_instance}{Instance}}(\textcolor{stringliteral}{"CM"}, \textcolor{stringliteral}{"currentMirrorPMOS"}); iCM.addConnector(\textcolor{stringliteral}{"1"}); iCM.addConnector(\textcolor{stringliteral}{"2"}); iCM.addConnector(\textcolor{stringliteral}{"vdd"}); iCM.addConnector(\textcolor{stringliteral}{"vdd"}); iCM.addParameter(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iCM.addParameter(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"3.889618e-06"}); iCM.addParameter(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"2"} ); circuit.addInstance(iCM); iDP = \mbox{\hyperlink{class_instance}{Instance}}(\textcolor{stringliteral}{"DP"}, \textcolor{stringliteral}{"diffPairNMOS"}); iDP.addConnector(\textcolor{stringliteral}{"1"}); iDP.addConnector(\textcolor{stringliteral}{"2"}); iDP.addConnector(\textcolor{stringliteral}{"vim"}); iDP.addConnector(\textcolor{stringliteral}{"vip"}); iDP.addConnector(\textcolor{stringliteral}{"3"}); iDP.addConnector(\textcolor{stringliteral}{"vss"}); iDP.addParameter(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iDP.addParameter(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"7.683346e-07"}); iDP.addParameter(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"4"} ); circuit.addInstance(iDP); iP6 = Mosfet(\textcolor{stringliteral}{"P6"}, \textcolor{stringliteral}{"vout"}, \textcolor{stringliteral}{"2"}, \textcolor{stringliteral}{"vdd"}, \textcolor{stringliteral}{"vdd"}, \textcolor{stringliteral}{"psvt"}); iP6.addParameter(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iP6.addParameter(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"3.558995e-05"}); iP6.addParameter(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"20"} ); circuit.addInstance(iP6); iN5 = Mosfet(\textcolor{stringliteral}{"N5"}, \textcolor{stringliteral}{"3"}, \textcolor{stringliteral}{"4"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{"nsvt"}); iN5.addParameter(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iN5.addParameter(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"2.536703e-06"}); iN5.addParameter(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"4"} ); circuit.addInstance(iN5); iN7 = Mosfet(\textcolor{stringliteral}{"N7"}, \textcolor{stringliteral}{"vout"}, \textcolor{stringliteral}{"4"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{"nsvt"}); iN7.addParameter(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iN7.addParameter(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"1.069083e-05"}); iN7.addParameter(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"16"} ); circuit.addInstance(iN7); iN8 = Mosfet(\textcolor{stringliteral}{"N8"}, \textcolor{stringliteral}{"4"}, \textcolor{stringliteral}{"4"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{"vss"}, \textcolor{stringliteral}{"nsvt"}); iN8.addParameter(\textcolor{stringliteral}{"l\_val"} , \textcolor{stringliteral}{"L\_VALUE"} ); iN8.addParameter(\textcolor{stringliteral}{"w\_val"} , \textcolor{stringliteral}{"2.536703e-06"}); iN8.addParameter(\textcolor{stringliteral}{"nf\_val"}, \textcolor{stringliteral}{"4"} ); circuit.addInstance(iN8); capa = Capacitor(\textcolor{stringliteral}{"C1"}, \textcolor{stringliteral}{"vout"}, \textcolor{stringliteral}{"2"}, \textcolor{stringliteral}{"CC\_VALUE"}) circuit.addInstance(capa); circuit.writeToFile(\textcolor{stringliteral}{"./myOTA.spi"}); \end{DoxyCodeInclude} \begin{DoxyNote}{Note} In order to run these two scripts ({\ttfamily parse\+Spice.\+py} \& drive\+Spice.\+py), user must ensure that \$\+P\+Y\+T\+H\+O\+N\+P\+A\+TH variable points to the directory containing S\+P\+I\+C\+E.\+so module. \end{DoxyNote}