BCDLite/klayout/drc/rule_decks/metaltop_slot.drc - globalfoundries-new-nda - Git at Google

 ################################################################################################
 # Copyright 2022 GlobalFoundries PDK Authors
 #
 # Licensed under the Apache License, Version 2.0 (the 'License');
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     https://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an 'AS IS' BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 ################################################################################################

 if BEOL

     #======================================================
     #----------------- MetalTop Slotting ------------------
     #======================================================

     # Rule MSLOT.1_MT : Maximum metaltop width without slotting ((Exclude Top Metal layer overlapping with TANRES_MK))
     logger.info('Executing rule MSLOT.1_MT')
     mslot1_mt = top_metal.not(top_metal.width(30.001.um).polygons(0.001)).not_interacting(top_metal_slot).not(top_metal.interacting(tanres_mk))
     mslot1_mt.output('MSLOT.1_MT','MSLOT.1_MT : Maximum metaltop width without slotting ((Exclude Top Metal layer overlapping with TANRES_MK))')
     mslot1_mt.forget

     # Rule MSLOT.2_MT  : Minimum metaltop slot width (slot layers)
     logger.info('Executing rule MSLOT.2_MT')
     mslot2_mt = top_metal_slot.width(2.0.um).polygons(0.001)
     mslot2_mt.output('MSLOT.2_MT','MSLOT.2_MT  : Minimum metaltop slot width (slot layers)')
     mslot2_mt.forget

     # Rule MSLOT.3a_MT : Minimum metaltop Slot length (slot mark layers)
     logger.info('Executing rule MSLOT.3a_MT')
     mslot3a_mt = top_metal_slot.with_bbox_max(nil,10.um)
     mslot3a_mt.output('MSLOT.3a_MT','MSLOT.3a_MT : Minimum metaltop Slot length (slot mark layers) ')
     mslot3a_mt.forget

     # Rule MSLOT.3b_MT : Maximum  metaltop Slot length (slot mark layers) is 250 um
     logger.info('Executing rule MSLOT.3b_MT')
     mslot3b_mt = top_metal_slot.with_bbox_max(250.001,nil)
     mslot3b_mt.output('MSLOT.3b_MT','MSLOT.3b_MT : Maximum Slot length (slot mark layers) is 250 um')
     mslot3b_mt.forget

     # Rule MSLOT.4a_MT : Minimum metaltop Slot space (slot mark layers) is 10 um
     logger.info('Executing rule MSLOT.4a_MT')
     mslot4a_mt = top_metal_slot.space(10.um).polygons(0.001)
     mslot4a_mt.output('MSLOT.4a_MT','MSLOT.4a_MT : Minimum metaltop Slot space (slot mark layers) is 10 um')
     mslot4a_mt.forget

     if top_metal_slot.count() > 1
         # Rule MSLOT.4b_MT : Maximum metaltop Slot space (slot mark layers) is 30 um
         logger.info('Executing rule MSLOT.4b_MT')
         mslot4b_mt = top_metal_slot.not_interacting(top_metal_slot.space(30.001.um).polygons(0.001))
         mslot4b_mt.output('MSLOT.4b_MT','MSLOT.4b_MT : Maximum metaltop Slot space (slot mark layers) is 30µm')
         mslot4b_mt.forget
     end

     # Rule MSLOT.5_MT : Minimum metaltop slot (slot mark layers) to metaltop edge spacing is 10 um
     logger.info('Executing rule MSLOT.5_MT')
     mslot5_mt_l1 = top_metal.enclosing(top_metal_slot,10.0.um).polygons(0.001)
     mslot5_mt_l2 = top_metal_slot.not_inside(top_metal)
     mslot5_mt = mslot5_mt_l1.or(mslot5_mt_l2)
     mslot5_mt.output('MSLOT.5_MT','MSLOT.5_MT : Minimum metaltop slot (slot mark layers) to metaltop edge spacing is 10 um')
     mslot5_mt_l1.forget
     mslot5_mt_l2.forget
     mslot5_mt.forget

     # Rule MSLOT.7_MT : Minimum space from metal_shield_via to top_metal slot is 0.2 um
     logger.info('Executing rule MSLOT.7_TM')
     mslot7_tm = metal_shield_via.separation(top_metal_slot,0.2.um).polygons(0.001).or(metal_shield_via.not_outside(top_metal_slot))
     mslot7_tm.output('MSLOT.7_MT','MSLOT.7_MT : Minimum space from metal_shield_via to top_metal slot is 0.2 um')
     mslot7_tm.forget

     # Rule MSLOT.8_MT : Minimum space from via(n-1) to metaltop slot is 0.2 um
     logger.info('Executing rule MSLOT.8_MT')
     mslot8_mt = top_via.separation(top_metal_slot,0.2.um).polygons(0.001).or(top_via.not_outside(top_metal_slot))
     mslot8_mt.output('MSLOT.8_MT','MSLOT.8_MT : Minimum space from via(n-1) to metaltop slot is 0.2 um')
     mslot8_mt.forget

     if MIM_OPTION == 'B'
         # Rule MSLOT.9b_OptionB : No slotting allowed for MIM bottom plate directly under FuseTop , Minimum distance to FuseTop is 5.0 um
         mslot9b_mimB_l1 = topmin1_metal_slot.or(topmin1_metal.holes).interacting(fusetop)
         mslot9b_mimB_l2 = topmin1_metal_slot.separation(fusetop,5.0.um).polygons(0.001)
         mslot9b_mimB = mslot9b_mimB_l1.or(mslot9b_mimB_l2)
         mslot9b_mimB.output('MSLOT.9b_OptionB','MSLOT.9b_OptionB : No slotting allowed for MIM bottom plate directly under FuseTop , Minimum distance to FuseTop is 5.0 um')
         mslot9b_mimB_l1.forget
         mslot9b_mimB_l2.forget
         mslot9b_mimB.forget

         # Rule MSLOT.9d_OptionB : Metaltop slots are not allowed to interact with top_via in FuseTop area
         logger.info('Executing rule MSLOT.9d_OptionB')
         mslot9d_l1 = top_metal_slot.interacting(top_via).interacting(fusetop)
         mslot9d_l1.output('MSLOT.9d_OptionB','MSLOT.9d_OptionB : Metaltop slots are not allowed to interact with top_via in FuseTop area ')
         mslot9d_l1.forget
     end

     if TANRES_OPTION == 'A'
         # Rule MSLOT.9b_TANRES_OptionA : No slotting allowed for Bottom plate directly under FuseTop , Minimum distance to FuseTop is 5.0 um
         mslot9b_tanA_l1 = topmin1_metal_slot.or(topmin1_metal.holes).interacting(fusetop)
         mslot9b_tanA_l2 = topmin1_metal_slot.separation(fusetop,5.0.um).polygons(0.001)
         mslot9b_tanA = mslot9b_tanA_l1.or(mslot9b_tanA_l2)
         mslot9b_tanA.output('MSLOT.9b_TANRES_OptionA','MSLOT.9b_TANRES_OptionA : No slotting allowed for Bottom plate directly under FuseTop , Minimum distance to FuseTop is 5.0 um')
         mslot9b_tanA_l1.forget
         mslot9b_tanA_l2.forget
         mslot9b_tanA.forget

         # Rule MSLOT.9d_TANRES_OptionA : top_metal slots are not allowed to interact with top_via in FuseTop area
         logger.info('Executing rule MSLOT.9d_TANRES_OptionA')
         mslot9d_l1 = top_metal_slot.interacting(top_via).interacting(fusetop)
         mslot9d_l1.output('MSLOT.9d_TANRES_OptionA','MSLOT.9d_TANRES_OptionA : top_metal slots are not allowed to interact with top_via in FuseTop area ')
         mslot9d_l1.forget
     end

     # Rule MSLOT.10_MT : Slot mark layer (metaltop slot) on the metaltop hole are not allowed
     logger.info('Executing rule MSLOT.10_MT')
     mslot10_mt = top_metal_slot.interacting(top_metal.holes)
     mslot10_mt.output('MSLOT.10_MT','MSLOT.10_MT : Slot mark layer (metaltop slot) on the metaltop hole are not allowed')
     mslot10_mt.forget

 end #BEOL
	################################################################################################
	# Copyright 2022 GlobalFoundries PDK Authors
	#
	# Licensed under the Apache License, Version 2.0 (the 'License');
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# https://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an 'AS IS' BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	################################################################################################

	if BEOL

	#======================================================
	#----------------- MetalTop Slotting ------------------
	#======================================================

	# Rule MSLOT.1_MT : Maximum metaltop width without slotting ((Exclude Top Metal layer overlapping with TANRES_MK))
	logger.info('Executing rule MSLOT.1_MT')
	mslot1_mt = top_metal.not(top_metal.width(30.001.um).polygons(0.001)).not_interacting(top_metal_slot).not(top_metal.interacting(tanres_mk))
	mslot1_mt.output('MSLOT.1_MT','MSLOT.1_MT : Maximum metaltop width without slotting ((Exclude Top Metal layer overlapping with TANRES_MK))')
	mslot1_mt.forget

	# Rule MSLOT.2_MT : Minimum metaltop slot width (slot layers)
	logger.info('Executing rule MSLOT.2_MT')
	mslot2_mt = top_metal_slot.width(2.0.um).polygons(0.001)
	mslot2_mt.output('MSLOT.2_MT','MSLOT.2_MT : Minimum metaltop slot width (slot layers)')
	mslot2_mt.forget

	# Rule MSLOT.3a_MT : Minimum metaltop Slot length (slot mark layers)
	logger.info('Executing rule MSLOT.3a_MT')
	mslot3a_mt = top_metal_slot.with_bbox_max(nil,10.um)
	mslot3a_mt.output('MSLOT.3a_MT','MSLOT.3a_MT : Minimum metaltop Slot length (slot mark layers) ')
	mslot3a_mt.forget

	# Rule MSLOT.3b_MT : Maximum metaltop Slot length (slot mark layers) is 250 um
	logger.info('Executing rule MSLOT.3b_MT')
	mslot3b_mt = top_metal_slot.with_bbox_max(250.001,nil)
	mslot3b_mt.output('MSLOT.3b_MT','MSLOT.3b_MT : Maximum Slot length (slot mark layers) is 250 um')
	mslot3b_mt.forget

	# Rule MSLOT.4a_MT : Minimum metaltop Slot space (slot mark layers) is 10 um
	logger.info('Executing rule MSLOT.4a_MT')
	mslot4a_mt = top_metal_slot.space(10.um).polygons(0.001)
	mslot4a_mt.output('MSLOT.4a_MT','MSLOT.4a_MT : Minimum metaltop Slot space (slot mark layers) is 10 um')
	mslot4a_mt.forget

	if top_metal_slot.count() > 1
	# Rule MSLOT.4b_MT : Maximum metaltop Slot space (slot mark layers) is 30 um
	logger.info('Executing rule MSLOT.4b_MT')
	mslot4b_mt = top_metal_slot.not_interacting(top_metal_slot.space(30.001.um).polygons(0.001))
	mslot4b_mt.output('MSLOT.4b_MT','MSLOT.4b_MT : Maximum metaltop Slot space (slot mark layers) is 30µm')
	mslot4b_mt.forget
	end

	# Rule MSLOT.5_MT : Minimum metaltop slot (slot mark layers) to metaltop edge spacing is 10 um
	logger.info('Executing rule MSLOT.5_MT')
	mslot5_mt_l1 = top_metal.enclosing(top_metal_slot,10.0.um).polygons(0.001)
	mslot5_mt_l2 = top_metal_slot.not_inside(top_metal)
	mslot5_mt = mslot5_mt_l1.or(mslot5_mt_l2)
	mslot5_mt.output('MSLOT.5_MT','MSLOT.5_MT : Minimum metaltop slot (slot mark layers) to metaltop edge spacing is 10 um')
	mslot5_mt_l1.forget
	mslot5_mt_l2.forget
	mslot5_mt.forget

	# Rule MSLOT.7_MT : Minimum space from metal_shield_via to top_metal slot is 0.2 um
	logger.info('Executing rule MSLOT.7_TM')
	mslot7_tm = metal_shield_via.separation(top_metal_slot,0.2.um).polygons(0.001).or(metal_shield_via.not_outside(top_metal_slot))
	mslot7_tm.output('MSLOT.7_MT','MSLOT.7_MT : Minimum space from metal_shield_via to top_metal slot is 0.2 um')
	mslot7_tm.forget

	# Rule MSLOT.8_MT : Minimum space from via(n-1) to metaltop slot is 0.2 um
	logger.info('Executing rule MSLOT.8_MT')
	mslot8_mt = top_via.separation(top_metal_slot,0.2.um).polygons(0.001).or(top_via.not_outside(top_metal_slot))
	mslot8_mt.output('MSLOT.8_MT','MSLOT.8_MT : Minimum space from via(n-1) to metaltop slot is 0.2 um')
	mslot8_mt.forget

	if MIM_OPTION == 'B'
	# Rule MSLOT.9b_OptionB : No slotting allowed for MIM bottom plate directly under FuseTop , Minimum distance to FuseTop is 5.0 um
	mslot9b_mimB_l1 = topmin1_metal_slot.or(topmin1_metal.holes).interacting(fusetop)
	mslot9b_mimB_l2 = topmin1_metal_slot.separation(fusetop,5.0.um).polygons(0.001)
	mslot9b_mimB = mslot9b_mimB_l1.or(mslot9b_mimB_l2)
	mslot9b_mimB.output('MSLOT.9b_OptionB','MSLOT.9b_OptionB : No slotting allowed for MIM bottom plate directly under FuseTop , Minimum distance to FuseTop is 5.0 um')
	mslot9b_mimB_l1.forget
	mslot9b_mimB_l2.forget
	mslot9b_mimB.forget

	# Rule MSLOT.9d_OptionB : Metaltop slots are not allowed to interact with top_via in FuseTop area
	logger.info('Executing rule MSLOT.9d_OptionB')
	mslot9d_l1 = top_metal_slot.interacting(top_via).interacting(fusetop)
	mslot9d_l1.output('MSLOT.9d_OptionB','MSLOT.9d_OptionB : Metaltop slots are not allowed to interact with top_via in FuseTop area ')
	mslot9d_l1.forget
	end

	if TANRES_OPTION == 'A'
	# Rule MSLOT.9b_TANRES_OptionA : No slotting allowed for Bottom plate directly under FuseTop , Minimum distance to FuseTop is 5.0 um
	mslot9b_tanA_l1 = topmin1_metal_slot.or(topmin1_metal.holes).interacting(fusetop)
	mslot9b_tanA_l2 = topmin1_metal_slot.separation(fusetop,5.0.um).polygons(0.001)
	mslot9b_tanA = mslot9b_tanA_l1.or(mslot9b_tanA_l2)
	mslot9b_tanA.output('MSLOT.9b_TANRES_OptionA','MSLOT.9b_TANRES_OptionA : No slotting allowed for Bottom plate directly under FuseTop , Minimum distance to FuseTop is 5.0 um')
	mslot9b_tanA_l1.forget
	mslot9b_tanA_l2.forget
	mslot9b_tanA.forget

	# Rule MSLOT.9d_TANRES_OptionA : top_metal slots are not allowed to interact with top_via in FuseTop area
	logger.info('Executing rule MSLOT.9d_TANRES_OptionA')
	mslot9d_l1 = top_metal_slot.interacting(top_via).interacting(fusetop)
	mslot9d_l1.output('MSLOT.9d_TANRES_OptionA','MSLOT.9d_TANRES_OptionA : top_metal slots are not allowed to interact with top_via in FuseTop area ')
	mslot9d_l1.forget
	end

	# Rule MSLOT.10_MT : Slot mark layer (metaltop slot) on the metaltop hole are not allowed
	logger.info('Executing rule MSLOT.10_MT')
	mslot10_mt = top_metal_slot.interacting(top_metal.holes)
	mslot10_mt.output('MSLOT.10_MT','MSLOT.10_MT : Slot mark layer (metaltop slot) on the metaltop hole are not allowed')
	mslot10_mt.forget

	end #BEOL