\hypertarget{cif_cifPres}{}\section{Presentation}\label{cif_cifPres} The {\bfseries Caltech Intermediate Format (C\-I\-F)} consists in a limited set of graphic primitives used to describe the shapes on each layer of an integrated circuit (see \href{http://en.wikipedia.org/wiki/Caltech_Intermediate_Form}{\tt http\-://en.\-wikipedia.\-org/wiki/\-Caltech\-\_\-\-Intermediate\-\_\-\-Form} for more informations). \par \hypertarget{cif_cifAutrhos}{}\subsection{Author}\label{cif_cifAutrhos} Damien Dupuis\-: damien.\-dupuis(at)lip6(.)fr\hypertarget{cif_cifLimits}{}\subsection{Limitations}\label{cif_cifLimits} Although the C\-I\-F format allows hierarchical description and supports several shapes, in this driver, we do not use hierarchy and only use Polygons.\hypertarget{cif_cifDB}{}\section{Stand alone database structure}\label{cif_cifDB} The database consists in two simple objects \-: \begin{DoxyItemize} \item \hyperlink{class_c_i_f_1_1_circuit}{C\-I\-F\-::\-Circuit} contains all C\-I\-F circuit informations such as the name, the unit used, the scale and the list of all Polygons. \item \hyperlink{class_c_i_f_1_1_polygon}{C\-I\-F\-::\-Polygon} describes a Polygon (a set of points). \end{DoxyItemize}\hypertarget{cif_cifDriver}{}\subsection{Using the driver}\label{cif_cifDriver} To drive a C\-I\-F file, user has to create one \hyperlink{class_c_i_f_1_1_circuit}{C\-I\-F\-::\-Circuit} and as many \hyperlink{class_c_i_f_1_1_polygon}{C\-I\-F\-::\-Polygon} as the number of shapes of the layout. The \hyperlink{class_c_i_f_1_1_polygon}{C\-I\-F\-::\-Polygon} objects can be created independently from for the \hyperlink{class_c_i_f_1_1_circuit}{C\-I\-F\-::\-Circuit} but must be finally added to the \hyperlink{class_c_i_f_1_1_circuit}{C\-I\-F\-::\-Circuit} using \hyperlink{class_c_i_f_1_1_circuit_a5b37e86206e2a128ba6db4987dc09a39}{C\-I\-F\-::\-Circuit\-::add\-Polygon()}.\par Once the \hyperlink{class_c_i_f_1_1_circuit}{C\-I\-F\-::\-Circuit} is complete, simply call the \hyperlink{class_c_i_f_1_1_circuit_a90c823b70c4984f302c19ceca604d101}{C\-I\-F\-::\-Circuit\-::write\-To\-File()} method to drive the database to file.\hypertarget{cif_cifExamples}{}\section{Examples}\label{cif_cifExamples} As said is the global presentation, V\-L\-S\-I S\-A\-P\-D project provides C++ libraries and Python modules for each supported format. In this section we present two simple code examples to drive a C\-I\-F file using C++ or Python. These two examples drive the same file {\ttfamily transistor.\-cif\-:} \begin{DoxyCodeInclude} (CIF file written on 11-Jun-2010 13:49:44 by VLSISAPD\_CIF\_DRIVER); (Units: micro - UU/DB Scale: 0.001); DS 1 1 1; 9 Transistor; L 6; P 130,290 540,290 540,690 130,690; L 17; P 305,150 365,150 365,830 305,830; DF; C 1; E \end{DoxyCodeInclude} \begin{DoxyImage} \includegraphics{transistorCif} \caption{C\-I\-F example layout width=.25} \end{DoxyImage} \hypertarget{cif_cifC}{}\subsection{C++}\label{cif_cifC} Here is the C++ code ({\ttfamily drive\-Cif.\-cpp}) used to generate the transistor.\-cif file. (Source is available in examples directory). \begin{DoxyCodeInclude} \textcolor{preprocessor}{#include } \textcolor{keyword}{using namespace }std; \textcolor{preprocessor}{#include "vlsisapd/cif/Circuit.h"} \textcolor{preprocessor}{#include "vlsisapd/cif/Polygon.h"} \textcolor{keywordtype}{int} main(\textcolor{keywordtype}{int} argc, \textcolor{keywordtype}{char} * argv[]) \{ \hyperlink{class_c_i_f_1_1_circuit}{CIF::Circuit}* circuit = \textcolor{keyword}{new} \hyperlink{class_c_i_f_1_1_circuit}{CIF::Circuit}(\textcolor{keywordtype}{string}(\textcolor{stringliteral}{"Transistor"}), \textcolor{keywordtype}{string}(\textcolor{stringliteral}{"micro"}), 0.001); \textcolor{comment}{// Layer #6 corresponds to active} \hyperlink{class_c_i_f_1_1_polygon}{CIF::Polygon}* poly = \textcolor{keyword}{new} \hyperlink{class_c_i_f_1_1_polygon}{CIF::Polygon}(6); poly->\hyperlink{class_c_i_f_1_1_polygon_ab3047469780327f18539907e1303ea15}{addPoint}(130, 290); poly->\hyperlink{class_c_i_f_1_1_polygon_ab3047469780327f18539907e1303ea15}{addPoint}(540, 290); poly->\hyperlink{class_c_i_f_1_1_polygon_ab3047469780327f18539907e1303ea15}{addPoint}(540, 690); poly->\hyperlink{class_c_i_f_1_1_polygon_ab3047469780327f18539907e1303ea15}{addPoint}(130, 690); circuit->\hyperlink{class_c_i_f_1_1_circuit_a5b37e86206e2a128ba6db4987dc09a39}{addPolygon}(poly); \textcolor{comment}{// Layer #17 corresponds to polysilicium} poly = \textcolor{keyword}{new} \hyperlink{class_c_i_f_1_1_polygon}{CIF::Polygon}(17); poly->\hyperlink{class_c_i_f_1_1_polygon_ab3047469780327f18539907e1303ea15}{addPoint}(305, 150); poly->\hyperlink{class_c_i_f_1_1_polygon_ab3047469780327f18539907e1303ea15}{addPoint}(365, 150); poly->\hyperlink{class_c_i_f_1_1_polygon_ab3047469780327f18539907e1303ea15}{addPoint}(365, 830); poly->\hyperlink{class_c_i_f_1_1_polygon_ab3047469780327f18539907e1303ea15}{addPoint}(305, 830); circuit->\hyperlink{class_c_i_f_1_1_circuit_a5b37e86206e2a128ba6db4987dc09a39}{addPolygon}(poly); circuit->\hyperlink{class_c_i_f_1_1_circuit_a90c823b70c4984f302c19ceca604d101}{writeToFile}(\textcolor{stringliteral}{"./transistor.cif"}); \textcolor{keywordflow}{return} 0; \} \end{DoxyCodeInclude} \begin{DoxyNote}{Note} In order to compile this code, a C\-Make\-Lists.\-txt file is provided. User must set the \$\-V\-L\-S\-I\-S\-A\-P\-D\-\_\-\-T\-O\-P 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{cif_cifPython}{}\subsection{Python}\label{cif_cifPython} Here is the Python code ({\ttfamily drive\-Cif.\-py}) used to generate the transistor.\-cif file. (Source is available in examples directory). \begin{DoxyCodeInclude} 1 \textcolor{keyword}{import} CIF 2 circuit = \hyperlink{class_c_i_f_1_1_circuit}{CIF.Circuit}(\textcolor{stringliteral}{"Transistor"}, \textcolor{stringliteral}{"micro"}, 0.001) 3 poly1 = \hyperlink{class_c_i_f_1_1_polygon}{CIF.Polygon}(6) 4 poly1.addPoint(130, 290) 5 poly1.addPoint(540, 290) 6 poly1.addPoint(540, 690) 7 poly1.addPoint(130, 690) 8 circuit.addPolygon(poly1) 9 10 poly2 = \hyperlink{class_c_i_f_1_1_polygon}{CIF.Polygon}(17) 11 poly2.addPoint(305, 150); 12 poly2.addPoint(365, 150); 13 poly2.addPoint(365, 830); 14 poly2.addPoint(305, 830); 15 circuit.addPolygon(poly2) 16 17 circuit.writeToFile(\textcolor{stringliteral}{"./transistor.cif"}) \end{DoxyCodeInclude} \begin{DoxyNote}{Note} In order to run the {\ttfamily drive\-Cif.\-py} script, user must ensure that \$\-P\-Y\-T\-H\-O\-N\-P\-A\-T\-H variable points to the directory containing C\-I\-F.\-so module. \end{DoxyNote}