def genLayout( self):
"""Create the layout. Main body of geometric construction code.
"""
Term( "D", TermType.INPUT_OUTPUT)
Term( "G", TermType.INPUT)
Term( "S", TermType.INPUT_OUTPUT)
Term( "B", TermType.INPUT_OUTPUT)
# Create poly
bbox = Box( -self.endcap, 0, (self.width + self.endcap), self.length)
polyRect = Rect( self.gateLayer, bbox)
Pin( "G", "G", Rect( self.gateLayer, bbox))
# Create source contact
contact = self.createContact( "S", Direction.SOUTH, polyRect, self.sourceDiffOverlap)
bottom = contact.getBBox().top
# Create drain contact
contact = self.createContact( "D", Direction.NORTH, polyRect, self.drainDiffOverlap )
top = contact.getBBox().bottom
# Create diffusion
Rect( self.diffLayer, Box( 0, bottom, self.width, top))
Rect( self.implantLayer, Box( 0, bottom, self.width, top)) #create nonenclosing implant layer
# Create other outline layers
all = Grouping( "all", self.getComps())
self.fgAddEnclosingRects( all, self.encLayers)
def genLayout( self):
"""Main body of geometric construction code.
Avoid modifying or overriding this method. PyCell-specific
behaviors and calculations should be kept out of this method.
"""
# Decide whether small or big via spacing applies
if ( ((self.xCnt > self.limitBig) and (self.yCnt >= self.limitBig)) or
((self.xCnt == self.limitBig) and (self.yCnt > self.limitBig)) ):
# Over big spacing limit, use big spacing rules
viaSpacing = self.viaSpacingBig
else:
# Under big spacing limit, use small spacing rules
viaSpacing = self.viaSpacingSmall
xViaPitch = self.viaWidth + viaSpacing
yViaPitch = self.viaWidth + viaSpacing
# Decide whether via farm rules apply
if ( ((self.xCnt > self.limitFarm) and (self.yCnt >= self.limitFarm)) or
((self.xCnt == self.limitFarm) and (self.yCnt > self.limitFarm)) ):
# Over farm limit, use farm spacing rules
viaSpacingFarm = self.viaSpacingFarm
else:
# Under farm limit, use same spacing rules
viaSpacingFarm = viaSpacing
xViaPitchFarm = (self.limitFarm - 1) * xViaPitch + self.viaWidth + viaSpacingFarm
yViaPitchFarm = (self.limitFarm - 1) * yViaPitch + self.viaWidth + viaSpacingFarm
#
# Place the via geometries.
#
xCoordMax = 0
yCoordMax = 0
# Loop iterates over farms to build up complete columns.
#
# Each o represents a via geometry.
#
# ooo ooo ooo ooo
# ooo ooo ooo ooo
# ooo ooo ooo ooo
#
# ooo ooo ooo ooo
# ooo ooo ooo ooo
# ooo ooo ooo ooo
#
# ooo ooo ooo ooo
# ooo ooo ooo ooo
# ooo ooo ooo ooo
#
yTotal = 0
yCoord = 0
yFarmCoord = 0
while yTotal < self.yCnt:
# Loop interates over rows to build up columns,
# but only for part of each column within a farm.
#
# Each o represents a via geometry.
#
# ooo ooo ooo ooo
# ooo ooo ooo ooo
# ooo ooo ooo ooo
#
y = 0
while (y < self.limitFarm) and (yTotal < self.yCnt):
# Loop iterates over farms to build a complete row
#
# Each o represents a via geometry.
#
# ooo ooo ooo ooo
#
xTotal = 0
xCoord = 0
xFarmCoord = 0
while xTotal < self.xCnt:
# Innermost loop builds part of each row within
# a farm.
#
# Each o represents a via geometry.
#
# ooo
#
x = 0
while (x < self.limitFarm) and (xTotal < self.xCnt):
Rect( self.via,
Box( xCoord, yCoord,
(xCoord + self.viaWidth), (yCoord + self.viaWidth)
)
)
x += 1
xTotal += 1
xCoord += xViaPitch
xCoordMax = xCoord - xViaPitch + self.viaWidth
xFarmCoord += xViaPitchFarm
xCoord = xFarmCoord
yCoordMax = yCoord + self.viaWidth
y += 1
yTotal += 1
yCoord += yViaPitch
yFarmCoord += yViaPitchFarm
yCoord = yFarmCoord
# Construct upper metal plate.
Rect( self.metalUpper,
Box( -self.xEnc[ (self.metalUpper, self.via)],
-self.yEnc[ (self.metalUpper, self.via)],
xCoordMax + self.xEnc[ (self.metalUpper, self.via)],
yCoordMax + self.yEnc[ (self.metalUpper, self.via)],
)
)
# Construct lower metal plate.
Rect( self.metalLower,
Box( -self.xEnc[ (self.metalLower, self.via)],
-self.yEnc[ (self.metalLower, self.via)],
xCoordMax + self.xEnc[ (self.metalLower, self.via)],
yCoordMax + self.yEnc[ (self.metalLower, self.via)],
)
)
# Construct any outlining geometries, such as implant
# layers needed for substrate/well contacts.
for layer in self.outline:
box = self.getBBox()
for innerLayer in ( self.via, self.metalLower, self.metalUpper):
innerBox = self.getBBox( innerLayer)
innerBox.left -= self.xEnc[ (layer, innerLayer)]
innerBox.right += self.xEnc[ (layer, innerLayer)]
innerBox.bottom -= self.yEnc[ (layer, innerLayer)]
innerBox.top += self.yEnc[ (layer, innerLayer)]
box.merge( innerBox)
Rect( layer, box)
# Move origin if requested
all = Grouping( "all", self.getComps())
if self.origin == "centerCenter":
xCoord = round( (-xCoordMax / 2) / self.grid) * self.grid
yCoord = round( (-yCoordMax / 2) / self.grid) * self.grid
elif self.origin == "lowerCenter":
xCoord = round( (-xCoordMax / 2) / self.grid) * self.grid
yCoord = max( self.yEnc[ (self.metalUpper, self.via)], self.yEnc[ (self.metalLower, self.via)])
elif self.origin == "lowerLeft":
xCoord = max( self.xEnc[ (self.metalUpper, self.via)], self.xEnc[ (self.metalLower, self.via)])
yCoord = max( self.yEnc[ (self.metalUpper, self.via)], self.yEnc[ (self.metalLower, self.via)])
elif self.origin == "centerLeft":
xCoord = max( self.xEnc[ (self.metalUpper, self.via)], self.xEnc[ (self.metalLower, self.via)])
yCoord = round( (-yCoordMax / 2) / self.grid) * self.grid
all.moveBy( xCoord, yCoord)
def genLayout( self):
"""Main body of geometric construction code. Create the
leftmost contact and transistor gate. Loop to create center
contacts and gates. Create the rightmost gate and contact.
Avoid modifying or overriding this method. PyCell-specific
behaviors and calculations should be kept out of this method.
"""
# obj is used to track the rightmost object, to calculate
# the diffusion coordinates.
# dbox is the bounding box of the underlying diffusion.
dbox = Dictionary()
dbox.bottom = 0
dbox.top = self.w
origin = Dictionary()
xCoord = 0
origin.y = 0
objectPitch = {
True:self.ContGatePitch,
False:self.GatePitchDiv2,
}
# Mark PyCell as containing stretch handles
self.props["cniStretch"] = "CiraNova"
# For integration with layout editors, save parameter
# settings in the submaster. They are not saved on the
# instance in the default case.
# For auto-abutment
self.props["diffContactLeft"] = self.diffContactLeft
self.props["diffContactRight"] = self.diffContactRight
# For stretch handles
self.props["w"] = self.w
self.props["l"] = self.l
# Create electrical terminals needed for pins
Term("G", TermType.INPUT)
Term("S", TermType.INPUT_OUTPUT)
Term("D", TermType.INPUT_OUTPUT)
# Create leftmost diffusion contact
obj = self.createSourceDrain(
diffusionType = "left",
withContact = self.diffContactLeft,
coverage = self.diffContactLeftCov,
stretch = "diffContactLeftCov",
terminal = "S",
x = xCoord,
)
dbox.left = obj.getBBox( self.diffusion).getLeft()
# Create leftmost gate w/optional gate contact
xCoord += objectPitch[self.diffContactLeft]# + 0.0025
obj = self.createGate( x=xCoord, terminal="G")
origin.x = obj.getBBox().left
if self.gateContactLeft:
self.createGateCont(
gateRect = obj,
coverage = self.gateContactLeftCov,
stretch = "gateContactLeftCov",
terminal = "G",
)
# Loop to create center gates and contacts
for i in range( self.fingers - 2):
# Create diffusion contact on left of gate
xCoord += objectPitch[self.diffContactCenter] + 0.0025
self.createSourceDrain(
diffusionType = "full",
withContact = self.diffContactCenter,
coverage = self.diffContactCenterCov,
stretch = "diffContactCenterCov",
x = xCoord,
)
# Create gate w/optional gate contact
if self.diffContactCenter:
xCoord += objectPitch[self.diffContactCenter] + 0.0025
else:
xCoord += objectPitch[self.diffContactCenter] - 0.0025
obj = self.createGate( x=xCoord, terminal="G")
if self.gateContactCenter:
self.createGateCont(
gateRect = obj,
coverage = self.gateContactCenterCov,
stretch = "gateContactCenterCov",
terminal = "G",
)
# Create rightmost gate w/optional gate contact
if self.fingers > 1:
if self.diffContactCenter:
xCoord += objectPitch[self.diffContactCenter] + 0.0025
else:
xCoord += objectPitch[self.diffContactCenter] - 0.0025
self.createSourceDrain(
diffusionType = "full",
withContact = self.diffContactCenter,
coverage = self.diffContactCenterCov,
stretch = "diffContactCenterCov",
x = xCoord,
)
xCoord += objectPitch[self.diffContactCenter] + 0.0025
obj = self.createGate( x=xCoord, terminal="G")
if self.gateContactRight:
self.createGateCont(
gateRect = obj,
coverage = self.gateContactRightCov,
stretch = "gateContactRightCov",
terminal = "G",
)
# Create rightmost diffusion contact
xCoord += objectPitch[self.diffContactRight]# + 0.0025
obj = self.createSourceDrain(
diffusionType = "right",
withContact = self.diffContactRight,
coverage = self.diffContactRightCov,
stretch = "diffContactRightCov",
x = xCoord,
terminal = "D",
)
dbox.right = obj.getBBox(self.diffusion).getRight()
# Create overall diffusion box
Rect(
self.diffusion,
Box( dbox.left, dbox.bottom, dbox.right, dbox.top)
)
# Create implant box, to overlap diffusion rather than whole cell
Rect(
self.implant,
Box( dbox.left, dbox.bottom, dbox.right, dbox.top)
)
Rect(
self.well,
Box( dbox.left - 0.055, dbox.bottom - 0.055, dbox.right + 0.055, dbox.top + 0.055 )
)
Rect(
self.alt,
Box( dbox.left - 0.055, dbox.bottom - 0.055, dbox.right + 0.055, dbox.top + 0.055 )
)
# Create other outline layers
all = Grouping( "all", self.getComps())
# all.add( self.fgAddEnclosingRects( all, self.encLayers)) This wasn't working, replaced with above rectangles
# Setting the origin is important.
# Avoid shifting of instance locations during auto-abutment.
# Correctly track mouse motion during stretching.
all.moveBy( -origin.x, -origin.y)