/* -*- tab-width: 4 -*-
*
* Electric(tm) VLSI Design System
*
* File: Nms2_sy.java
*
* Copyright (c) 2003, Oracle and/or its affiliates. All rights reserved.
*
* Electric(tm) is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* Electric(tm) is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Electric(tm); see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 59 Temple Place, Suite 330,
* Boston, Mass 02111-1307, USA.
*/
package com.sun.electric.tool.generator.layout.gates;
import com.sun.electric.database.hierarchy.Cell;
import com.sun.electric.database.prototype.PortCharacteristic;
import com.sun.electric.tool.generator.layout.FoldedMos;
import com.sun.electric.tool.generator.layout.FoldedNmos;
import com.sun.electric.tool.generator.layout.FoldsAndWidth;
import com.sun.electric.tool.generator.layout.LayoutLib;
import com.sun.electric.tool.generator.layout.StdCellParams;
import com.sun.electric.tool.generator.layout.TechType;
import com.sun.electric.tool.generator.layout.TrackRouter;
import com.sun.electric.tool.generator.layout.TrackRouterH;
import com.sun.electric.tool.Job;
public class Nms2_sy {
private static final double gY = -4.0;
private static final double dY = -11.0;
// p1_p1_sp/2 + p1m1_wid + p1_diff_sp
private static final double nmosTop = -(1.5 + 5 + 2);
private static void error(boolean pred, String msg) {
Job.error(pred, msg);
}
public static Cell makePart(double sz, StdCellParams stdCell) {
TechType tech = stdCell.getTechType();
sz = stdCell.roundSize(sz);
String nm = "nms2_sy";
sz = stdCell.checkMinStrength(sz, 1, nm);
// p1_p1_sp/2 + p1m1_wid + gate_overhang_diff
double nmosLowest = stdCell.getCellBot() + 1.5 + 5 + 2;
double spaceAvail = nmosTop - nmosLowest;
int nbStacked = 2;
double totWid = sz * 3 * nbStacked;
FoldsAndWidth fw = stdCell.calcFoldsAndWidth(spaceAvail, totWid, 2);
error(fw==null, "can't make Nms2_sy this small: "+sz);
// g2 must be spaced from gnd and nmos
// lowerGndEdge -m1_m1_sp - m1_wid/2
double g2FromGndY = stdCell.getGndY() - stdCell.getGndWidth()/2 - 3 - 2;
// lowerMosEdge -gateOverhangDiff - p1m1_wid/2
double g2FromMosY = nmosTop - fw.physWid - 2 -2.5;
double g2Y = Math.min(g2FromGndY, g2FromMosY);
Cell nms2 = stdCell.findPart(nm, sz);
if (nms2!=null) return nms2;
nms2 = stdCell.newPart(nm, sz);
// leave vertical m1 track for g
double gX = 1.5 + 2; // m1_m1_sp/2 + m1_wid/2
LayoutLib.newExport(nms2, "g", PortCharacteristic.IN, tech.m1(), 4,
gX, gY);
double mosX = gX + 2 + 3 + 2; // m1_wid/2 + m1_m1_sp + m1_wid/2
double nmosY = nmosTop - fw.physWid/2;
FoldedMos nmos = new FoldedNmos(mosX, nmosY, fw.nbFolds, nbStacked,
fw.gateWid, nms2, tech);
// g2 m1_wid/2 + m1_m1_sp + m1_wid/2
double g2X = StdCellParams.getRightDiffX(nmos) + 2 + 3 + 2;
LayoutLib.newExport(nms2, "g2", PortCharacteristic.IN, tech.m1(), 4,
g2X, g2Y);
// output d m1_wid/2 + m1_m1_sp + m1_wid/2
double dX = g2X + 2 + 3 + 2;
LayoutLib.newExport(nms2, "d", PortCharacteristic.OUT, tech.m1(), 4,
dX, dY);
// create gnd export and connect to MOS source/drains
stdCell.wireVddGnd(nmos, StdCellParams.EVEN, nms2);
// connect inputs g and g2
TrackRouter g = new TrackRouterH(tech.m1(), 3, gY, tech, nms2);
TrackRouter g2 = new TrackRouterH(tech.m1(), 3, g2Y, tech, nms2);
g.connect(nms2.findExport("g"));
g2.connect(nms2.findExport("g2"));
for (int i=0; i<nmos.nbGates(); i++) {
switch (i%2) {
case 0: g.connect(nmos.getGate(i, 'T'), -1.5); break;
case 1: g2.connect(nmos.getGate(i, 'B'), 1.5); break;
}
}
// connect output d
TrackRouter d = new TrackRouterH(tech.m2(), 4, dY, tech, nms2);
d.connect(nms2.findExport("d"));
for (int i=1; i<nmos.nbSrcDrns(); i+=2) {d.connect(nmos.getSrcDrn(i));}
// add wells
double wellMinX = 0;
double wellMaxX = dX + 2 + 1.5; // m1_wid/2 + m1m1_space/2
stdCell.addNmosWell(wellMinX, wellMaxX, nms2);
// add essential bounds
stdCell.addNstackEssentialBounds(wellMinX, wellMaxX, nms2);
// perform Network Consistency Check
stdCell.doNCC(nms2, nm+"{sch}");
return nms2;
}
}