[_CD4_]<datools7.0>PolySilicon>CMosBPolyObjectsImpl.mesa!3

CMosBPolyObjectsImpl.mesa

Stolen from Christian Jacobi, May 3, 1983 11:22 am

Last edited by: Louis Monier, November 7, 1988 11:27:15 am PST

DIRECTORY

CMosB,

CMosBPolyObjects,

CD,

CDAtomicObjects,

CDBasics,

CDLayers,

CDOps,

CDProperties,

CDStretchyBackdoor,

Rope,

SinixOps;

CMosBPolyObjectsImpl: CEDAR PROGRAM

IMPORTS CD, CDAtomicObjects, CDBasics, CDLayers, CDOps, CDProperties, CDStretchyBackdoor, CMosB, Rope, SinixOps

EXPORTS CMosBPolyObjects =

BEGIN

lambda: CD.Number = CMosB.lambda;

wellSurround: CD.Number = CMosB.wellSurround;

--Client stuff

SDiff: PROC [l: CD.Layer] RETURNS [CD.Layer] = {

SELECT l FROM

CMosB.wpdif, CMosB.wndif, CMosB.pdif, CMosB.ndif => RETURN [l];

ENDCASE => RETURN [CMosB.wpdif]

};

XDiff: PROC [l: CD.Layer] RETURNS [CD.Layer] = {

SELECT l FROM

CMosB.wpdif, CMosB.wndif, CMosB.pdif, CMosB.ndif, CMosB.nwellCont, CMosB.pwellCont => RETURN [l];

ENDCASE => RETURN [CMosB.wpdif]

};

CreateAtomic: PROC [classKey: ATOM, size: CD.Position, layer: CD.Layer ← CD.undefLayer] RETURNS [CD.Object] = {

RETURN [CDAtomicObjects.CreateAtomicOb[classKey, size, CMosB.cmosB, layer]];

};

CreateTransistor: PUBLIC PROC [size: CD.Position, difLayer: CD.Layer] RETURNS [CD.Object] = {

RETURN [CreateAtomic[$C2PolyTrans, size, XDiff[difLayer]]];

};

CreateAngleTransistor: PUBLIC PROC [size: CD.Position, difLayer: CD.Layer] RETURNS [CD.Object] = {

RETURN [CreateAtomic[$C2PolyLTrans, size, XDiff[difLayer]]];

};

CreateLargePolyCon: PUBLIC PROC [sz: CD.Position] RETURNS [CD.Object] = {

RETURN [CreateAtomic[$C2PolyLargeSimpleCon, sz, CMosB.pol]];

};

CreateLargeDifCon: PUBLIC PROC [sz: CD.Position, difLayer: CD.Layer] RETURNS [CD.Object] = {

RETURN [CreateAtomic[$C2PolyLargeSimpleCon, sz, XDiff[difLayer]]];

};

CreateLargeVia: PUBLIC PROC [sz: CD.Position] RETURNS [CD.Object] = {

RETURN [CreateAtomic[$C2PolyLargeVia, sz]];

};

--Real implementations

-- straight transistors -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --

MatchTrans: PROC [me: CD.Object, r: CD.Rect, layer: CD.Layer, prim: BOOL, horz: BOOL] RETURNS [BOOL] = {

--poly, dif, welldif, via

-- Don't care about different diffusions and such

RETURN [layer=me.layer OR layer=CMosB.pol]

};

wellTransClass: CD.ObjectClass;

transClass: CD.ObjectClass;

FillTransistor: PROC [ob: CD.Object] RETURNS [mustFail: BOOL←FALSE] = {

dExt: CD.Number = 10*lambda;

pExt: CD.Number = 10*lambda;

dif: CD.Layer;

inr: CD.Rect ← ob.bbox;

inr.x2 ← MAX[inr.x2, 10*lambda+2*pExt];

inr.y2 ← MAX[inr.y2, 10*lambda+2*dExt];

IF ob.layer=CMosB.wpdif OR ob.layer=CMosB.wndif THEN {

ob.class ← wellTransClass;

IF ob.layer=CMosB.wpdif THEN dif ← CMosB.pdif ELSE dif ← CMosB.ndif;

CDAtomicObjects.Incorporate[ob: ob,

r: [x1: inr.x1-wellSurround+pExt,

x2: inr.x2+wellSurround-pExt,

y1: inr.y1-wellSurround,

y2: inr.y2+wellSurround],

layer: (IF dif=CMosB.pdif THEN CMosB.nwell ELSE CMosB.pwell),

inside: FALSE

];

}

ELSE {

IF ob.layer=CMosB.pdif THEN dif ← CMosB.pdif ELSE dif ← CMosB.ndif;

};

CDAtomicObjects.Incorporate[ob: ob,

r: [x1: inr.x1+pExt,

x2: inr.x2-pExt,

y1: inr.y1,

y2: inr.y2],

layer: dif

];

CDAtomicObjects.Incorporate[ob: ob,

r: [x1: inr.x1,

x2: inr.x2,

y1: inr.y1+dExt,

y2: inr.y2-dExt],

layer: CMosB.pol

];

};

DescribeT: CD.DescribeProc = {

dExt: CD.Number = 10*lambda;

pExt: CD.Number = 10*lambda;

sz: CD.Position = CD.InterestSize[ob];

RETURN [

Rope.Cat[

"transistor ",

CDOps.LayerRope[ob.layer],

Rope.Cat[" [",

CDOps.LambdaRope[sz.x-2*pExt, lambda],

CDOps.LambdaRope[sz.y-2*dExt, lambda],

"]"]

]

};

-- L transistors -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --

lTransClass: CD.ObjectClass;

wellLTransClass: CD.ObjectClass;

FillLTransistor: PROC [ob: CD.Object] RETURNS [mustFail: BOOL←FALSE] = {

pExt: CD.Number = 10*lambda; --poly extends gate

dExt: CD.Number = 10*lambda; --diffusion extends gate

dW: CD.Number = 10*lambda; --witdth of diffusion in gate (not width of gate)

pW: CD.Number = 10*lambda; --witdth of poly in gate (not width of gate)

minSz: CD.Number = pExt+2*dExt+dW;

dif: CD.Layer;

inr: CD.Rect ← ob.bbox;

inr.x2 ← MAX[inr.x2, minSz];

inr.y2 ← MAX[inr.y2, minSz];

ob.bbox ← inr;

IF ob.layer=CMosB.wpdif OR ob.layer=CMosB.wndif THEN {

wR: CD.Rect;

ob.class ← wellLTransClass;

IF ob.layer=CMosB.wpdif THEN dif ← CMosB.pdif ELSE dif ← CMosB.ndif;

--horizontal piece of nwell

CDAtomicObjects.Incorporate[ob: ob,

r: [x1: inr.x1-wellSurround+pExt,

x2: inr.x2+wellSurround,

y1: inr.y1-wellSurround ,

y2: inr.y1+wellSurround+dW+2*dExt],

layer: (IF dif=CMosB.pdif THEN CMosB.nwell ELSE CMosB.pwell),

inside: FALSE

];

--vertical piece of nwell if ~empty

wR ← [x1: inr.x2-(dW+2*dExt)-wellSurround,

x2: inr.x2+wellSurround,

y1: inr.y1+wellSurround+dW+2*dExt,

y2: inr.y2+wellSurround-pExt];

IF CDBasics.NonEmpty[wR] THEN

CDAtomicObjects.Incorporate[ob: ob,

r: wR,

layer: (IF dif=CMosB.pdif THEN CMosB.nwell ELSE CMosB.pwell),

inside: FALSE

];

}

ELSE {

IF ob.layer=CMosB.pdif THEN dif ← CMosB.pdif ELSE dif ← CMosB.ndif;

};

--horizontal piece of diff

CDAtomicObjects.Incorporate[ob: ob,

r: [x1: inr.x1+pExt,

x2: inr.x2,

y1: inr.y1,

y2: 2*dExt+dW],

layer: dif

];

--vertical piece of diff

IF 2*dExt+dW < inr.y2-pExt THEN

CDAtomicObjects.Incorporate[ob: ob,

r: [x1: inr.x2-2*dExt-dW,

x2: inr.x2,

y1: 2*dExt+dW,

y2: inr.y2-pExt ],

layer: dif

];

CDAtomicObjects.Incorporate[ob: ob,

r: [x1: inr.x1,

x2: inr.x2-dExt,

y1: dExt,

y2: dExt+pW],

layer: CMosB.pol

];

CDAtomicObjects.Incorporate[ob: ob,

r: [x1: inr.x2-pW-dExt,

x2: inr.x2-dExt,

y1: inr.y1+pW+dExt,

y2: inr.y2],

layer: CMosB.pol

];

};

-- simple contacts -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --

largeContactClass: CD.ObjectClass;

wellLargeContactClass: CD.ObjectClass;

FillLargeSimpleCon: PROC [ob: CD.Object] RETURNS [mustFail: BOOL←FALSE] = {

rimW: CD.Number = 5*lambda; -- therefore large

inr: CD.Rect ← ob.bbox;

inr.x2 ← MAX[inr.x2, 10*lambda+2*rimW];

inr.y2 ← MAX[inr.y2, 10*lambda+2*rimW];

IF ob.layer=CMosB.wpdif OR ob.layer=CMosB.wndif OR ob.layer=CMosB.wpwellCont OR ob.layer=CMosB.wnwellCont THEN {

ob.class ← wellLargeContactClass;

CDAtomicObjects.Incorporate[ob: ob,

r: CDBasics.Extend[inr, CDLayers.layerData[ob.layer].wSurr],

layer: CDLayers.layerData[ob.layer].well,

inside: FALSE

];

};

CDAtomicObjects.Incorporate[ob: ob, r: inr, layer: CDLayers.layerData[ob.layer].paint];

CDAtomicObjects.Incorporate[ob: ob, r: inr, layer: CMosB.met];

CDAtomicObjects.Incorporate[ob: ob, r: CDBasics.Extend[inr, -rimW], layer: CMosB.cut];

};

DescribeLargeC: CD.DescribeProc = {

RETURN [Rope.Cat["contact ", CDOps.LayerRope[ob.layer]]]

};

--via -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --

FillLargeVia: PROC [ob: CD.Object] RETURNS [mustFail: BOOL←FALSE] = {

viaRimWidth: CD.Number = 5*lambda;

cut2min: CD.Number = 10*lambda;

ob.bbox.x2 ← MAX[ob.bbox.x2, cut2min+2*viaRimWidth];

ob.bbox.y2 ← MAX[ob.bbox.y2, cut2min+2*viaRimWidth];

ob.layer ← CMosB.met2;

CDAtomicObjects.Incorporate[ob: ob, r: ob.bbox, layer: CMosB.met2];

CDAtomicObjects.Incorporate[ob: ob, r: ob.bbox, layer: CMosB.met];

CDAtomicObjects.Incorporate[ob: ob,

r: [x1: viaRimWidth,

x2: ob.bbox.x2-viaRimWidth,

y1: viaRimWidth,

y2: ob.bbox.y2-viaRimWidth],

layer: CMosB.cut2

];

};

-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --

MatchSimpleCon: PROC [me: CD.Object, r: CD.Rect, layer: CD.Layer, prim: BOOL, horz: BOOL] RETURNS [BOOL] = {

--poly, dif, welldif, via

-- Don't care about different diffusions and such

RETURN [layer=me.layer OR layer=CMosB.met]

};

Set: PROC [className: ATOM, extractAtom: ATOM] = INLINE {

CDProperties.PutProp[CD.FetchObjectClass[className, CMosB.cmosB], SinixOps.GetExtractMode[$cmosB].extractProcProp, extractAtom];

};

Init: PROC [] = {

Register: PROC [key: ATOM, creator: CDAtomicObjects.FillObjectProc, desc: Rope.ROPE, match: CDStretchyBackdoor.MatchProc←NIL, describe: CD.DescribeProc←NIL] RETURNS [p: CD.ObjectClass] = {

p ← CDAtomicObjects.RegisterAtomicObClass[key, creator, desc, CMosB.cmosB];

IF p=NIL THEN ERROR;

IF describe#NIL THEN p.describe ← describe;

IF match=NIL THEN match ← MatchSimpleCon;

CDStretchyBackdoor.InstallMatchProc[p, match];

};

--transistors

transClass ← Register[$C2PolyTrans, FillTransistor, "transistor", MatchTrans, DescribeT];

wellTransClass ← Register[$C2PolyWellTrans, FillTransistor, "transistor", MatchTrans, DescribeT];

lTransClass ← Register[$C2PolyLTrans, FillLTransistor, "L-transistor", MatchTrans];

wellLTransClass ← Register[$C2PolyLWellTrans, FillLTransistor, "L-transistor", MatchTrans];

--contacts

largeContactClass ← Register[$C2PolyLargeSimpleCon, FillLargeSimpleCon, "large contact", NIL, DescribeLargeC];

wellLargeContactClass ← Register[$C2PolyLargeWellSimpleCon, FillLargeSimpleCon, "large contact", NIL, DescribeLargeC];

[] ← Register[$C2PolyLargeVia, FillLargeVia, "large via"];

-- for the extractor

Set[ $C2PolyLargeSimpleCon, $CMosBExtractWellRect];

Set[ $C2PolyLargeVia, $ExtractAtomic];

Set[ $C2PolyTrans, $ExtractTransistor];

Set[ $C2PolyLTrans, $ExtractTransistor];

};

Init[];

END.