[_CD4_]<datools7.0>NewRoute25>RouteUtilImpl.mesa!1

RouteUtilImpl.mesa

Copyright © 1985, 1987 by Xerox Corporation. All rights reserved.

by Bryan Preas July 10, 1985 6:57:00 pm PDT

last edited by Bryan Preas July 20, 1987 4:12:16 pm PDT

Christian Le Cocq January 11, 1988 1:16:43 pm PST

DIRECTORY Basics, CD, CDBasics, CDCells, CDRects, DABasics, D2Orient, Real, RefTab, Rope, Route, RoutePrivate, RouteChannel, RouteTechnology, RouteUtil, RTBasic;

RouteUtilImpl: CEDAR PROGRAM

IMPORTS Basics, CDBasics, CDCells, CDRects, Real, RefTab, Route, RouteTechnology, RouteUtil, RTBasic

EXPORTS RouteUtil = BEGIN

LayerToRoutingLayer: PUBLIC PROC [rules: Route.DesignRules, layer: CD.Layer] RETURNS [routingLayer: RoutePrivate.RoutingLayer] =

BEGIN

trunkLayer: CD.Layer ← rules.trunkLayer;

branchLayer: CD.Layer ← rules.branchLayer;

IF layer = trunkLayer THEN routingLayer ← trunk

ELSE IF layer = branchLayer THEN routingLayer ← branch

ELSE Route.Error[programmingError, "Invalid layer"];

END;

RoutingLayerToLayer: PUBLIC PROC [rules: Route.DesignRules, routingLayer: RoutePrivate.RoutingLayer] RETURNS [layer: CD.Layer] =

BEGIN

trunkLayer: CD.Layer ← rules.trunkLayer;

branchLayer: CD.Layer ← rules.branchLayer;

IF routingLayer = trunk THEN layer ← trunkLayer

ELSE IF routingLayer = branch THEN layer ← branchLayer

ELSE Route.Error[programmingError, "Invalid routing layer"];

END;

RoutingLayerName: PUBLIC ARRAY RoutePrivate.RoutingLayerOrNone OF Rope.ROPE ← ["trunk", "branch", "none"];

Length: PUBLIC PROC [pos1, pos2: DABasics.Position] RETURNS [length: DABasics.Number] = {

return lent of line segment from pos1 to pos2.

length ← Real.Round[Real.SqRt[Real.FAdd[Real.FMul[Real.FSub[pos1.x, pos2.x], Real.FSub[pos1.x, pos2.x]], Real.FMul[Real.FSub[pos1.y, pos2.y], Real.FSub[pos1.y, pos2.y]]]]]

};

XYToPQ: PUBLIC PROC [rules: Route.DesignRules, pos: DABasics.Position] RETURNS [pqPos: RTBasic.PQPos] =

convert a position from x-y to p-q space.

BEGIN

chanDirection: DABasics.Direction ← rules.trunkDirection;

SELECT chanDirection FROM

horizontal => RETURN[[pos.x, pos.y]];

vertical => RETURN[[pos.y, pos.x]];

ENDCASE;

END;

PQToXY: PUBLIC PROC [rules: Route.DesignRules, pqPos: RTBasic.PQPos] RETURNS [pos: DABasics.Position] =

convert a position from p-q to x-y space.

BEGIN

chanDirection: DABasics.Direction ← rules.trunkDirection;

SELECT chanDirection FROM

horizontal => RETURN[[pqPos.p, pqPos.q]];

vertical => RETURN[[pqPos.q, pqPos.p]];

ENDCASE;

END;

CompareResult: PUBLIC PROC [result1, result2: Route.ResultData] RETURNS [result: Basics.Comparison] = {

result ← Basics.CompareInt[result1.numIncompletes, result2.numIncompletes];

IF result # equal THEN RETURN;

result ← Basics.CompareInt[result1.numTrunkTracks, result2.numTrunkTracks];

IF result # equal THEN RETURN;

result ← Basics.CompareInt[result1.polyLength, result2.polyLength];

IF result # equal THEN RETURN;

result ← Basics.CompareInt[result1.polyToMetal, result2.polyToMetal];

IF result # equal THEN RETURN;

result ← Basics.CompareInt[result1.metalToMetal2, result2.metalToMetal2];

IF result # equal THEN RETURN;

result ← Basics.CompareInt[result1.metalLength, result2.metalLength];

IF result # equal THEN RETURN;

result ← Basics.CompareInt[result1.metal2Length, result2.metal2Length];

}; -- CompareResult

Include: PUBLIC PROC [cell: CD.Object←NIL, ob: CD.Object,

position: CD.Position←[0, 0], orientation: D2Orient.Orientation←original] RETURNS [application: CD.Instance] = {

include an object in a design

application ← CDCells.IncludeOb[design: NIL, cell: cell, ob: ob, trans: [off: position, orient: orientation], mode: dontResize].newInst};

GetVia: PUBLIC PROC [size: DABasics.Position, layer1, layer2: CD.Layer, cdLambda: DABasics.Number] RETURNS [cell: CD.Object ← NIL] = {

this is technology dependent; this needs to be fixed

cmosB via rules are used if 'Big Contacts" exist

minBigContact: CD.Object ← RouteTechnology.GetBigContact[[1, 1], layer1, layer2];

IF minBigContact = NIL THEN

no big contacts, must do it with small ones

cell ← RouteTechnology.GetContact[layer1, layer2]

ELSE { -- big contact exists, determine size to use

contactSize: CD.Position ← CDBasics.SizeOfRect[minBigContact.bbox];

IF contactSize.x <= size.x AND contactSize.y <= size.y THEN {

use 2, 3, or 4 lambda square vias tha give largest perimeter

perim2x2: DABasics.Number ← Real.Round[size.x/(6*cdLambda)]*Real.Round[size.y/(6*cdLambda)]*8*cdLambda; -- 2x2 contacts go in a 6x6 square

perim3x3: DABasics.Number ← Real.Round[size.x/(7*cdLambda)]*Real.Round[size.y/(7*cdLambda)]*12*cdLambda; -- 3x3 contacts go in a 7x7 square

perim4x4: DABasics.Number ← Real.Round[size.x/(8*cdLambda)]*Real.Round[size.y/(8*cdLambda)]*16*cdLambda; -- 4x4 contacts go in a 8x8 square

SELECT TRUE FROM

perim4x4 >= perim2x2 AND perim4x4 >= perim3x3 =>

cell ← RouteTechnology.GetBigContact[[8*cdLambda, 8*cdLambda], layer1, layer2];

perim3x3 >= perim2x2 AND perim3x3 >= perim4x4 =>

cell ← RouteTechnology.GetBigContact[[7*cdLambda, 7*cdLambda], layer1, layer2];

perim2x2 >= perim4x4 AND perim2x2 >= perim3x3 =>

cell ← RouteTechnology.GetBigContact[[6*cdLambda, 6*cdLambda], layer1, layer2];

ENDCASE}

ELSE -- big contact too big, must do it with small ones

cell ← RouteTechnology.GetContact[layer1, layer2]

}};

StitchVias: PUBLIC PROC [size: DABasics.Position, layer1, layer2: CD.Layer, cdLambda: DABasics.Number, viaTable: RefTab.Ref] RETURNS [obj: CD.Object] = {

contact: CD.Object ← GetVia[size, layer1, layer2, cdLambda];

contactSize: CD.Position ← CDBasics.SizeOfRect[contact.bbox];

minSize: DABasics.Number ← 6*cdLambda; -- technology dependent!!! this needs to be fixed

val: RefTab.Val ← IF viaTable = NIL THEN NIL ELSE RefTab.Fetch[viaTable, NEW[DABasics.Position ← size]].val;

IF val # NIL THEN obj ← NARROW[val]

ELSE IF contactSize.x >= size.x AND contactSize.y >= size.y THEN

obj ← contact -- special case for performance

ELSE {

sizeX: DABasics.Number ← MAX[contactSize.x, minSize];

sizeY: DABasics.Number ← MAX[contactSize.y, minSize];

numYInts: DABasics.Number ← MAX[1, size.y/sizeY];

lastYLoc: DABasics.Number ← 0;

lastXLoc: DABasics.Number;

cover: DABasics.Position;

obj ← CDCells.CreateEmptyCell[];

FOR index: DABasics.Number IN [1 .. numYInts] DO

numXInts: DABasics.Number ← MAX[1, size.x/sizeX];

lastXLoc ← 0;

FOR index: DABasics.Number IN [1 .. numXInts] DO

[] ← RouteUtil.Include[obj, contact, [lastXLoc, lastYLoc]];

lastXLoc ← lastXLoc + sizeX;

ENDLOOP;

lastYLoc ← lastYLoc + sizeY;

ENDLOOP;

cover ← [lastXLoc - sizeX + contactSize.x, lastYLoc - sizeY + contactSize.y];

[] ← RouteUtil.Include[obj, CDRects.CreateRect[cover, layer1]];

[] ← RouteUtil.Include[obj, CDRects.CreateRect[cover, layer2]];

RTBasic.RepositionCell[obj]}};

LineToRect: PUBLIC PROC [pos1, pos2: DABasics.Position, width: DABasics.Number] RETURNS [position: CD.Position, size: CD.Position] = {

convert a line and a width to a rectangle and an orgin

SELECT TRUE FROM

pos1.x = pos2.x => { -- line is vertical

size ← [width, ABS[pos1.y - pos2.y]];

position ← [pos1.x - width/2, MIN[pos1.y, pos2.y]]};

pos1.y = pos2.y => { -- line is horizontal

size ← [ABS[pos1.x - pos2.x], width];

position ← [MIN[pos1.x, pos2.x], pos1.y - width/2]};

ENDCASE => Route.Error[programmingError, "Diagional lines not allowed."]};

END.