################################################## ## ## ## C A L I B R E S Y S T E M ## ## ## ## L V S R E P O R T ## ## ## ################################################## REPORT FILE NAME: pcd_inv_L.lvs.report LAYOUT NAME: svdb/pcd_inv_L.sp ('pcd_inv_L') SOURCE NAME: /home/marben/GF55/GF_stuff/Components/cmos10lpe_CDS_oa_dl064_15_20170731/DRC_LVS_Run_Area/pcd_inv_L.src.net ('pcd_inv_L') RULE FILE: /home/marben/GF55/GF_stuff/Components/cmos10lpe_CDS_oa_dl064_15_20170731/DRC_LVS_Run_Area/_cmos55lpe.lvs_ref.cal_ CREATION TIME: Sun Mar 10 22:41:14 2019 CURRENT DIRECTORY: /home/marben/GF55/GF_stuff/Components/cmos10lpe_CDS_oa_dl064_15_20170731/DRC_LVS_Run_Area USER NAME: marben CALIBRE VERSION: v2017.1_34.33 Wed Apr 5 14:22:19 PDT 2017 OVERALL COMPARISON RESULTS # ################### _ _ # # # * * # # # CORRECT # | # # # # \___/ # ################### ************************************************************************************************************** CELL SUMMARY ************************************************************************************************************** Result Layout Source ----------- ----------- -------------- CORRECT pcd_inv_L pcd_inv_L ************************************************************************************************************** LVS PARAMETERS ************************************************************************************************************** o LVS Setup: // LVS COMPONENT TYPE PROPERTY // LVS COMPONENT SUBTYPE PROPERTY // LVS PIN NAME PROPERTY LVS POWER NAME "VDD?" "DVDD?" "VDDC?" "VNWP?" "VDDP?" "VNW?" "VDD:P?" "VCC?" "VCC:P?" "WDPWRA?" "WDPWRB?" "WDPWR?" LVS GROUND NAME "VSS?" "GND?" "DVSS?" "SUB?" "sub" LVS CELL SUPPLY NO LVS RECOGNIZE GATES ALL LVS IGNORE PORTS NO LVS CHECK PORT NAMES NO LVS IGNORE TRIVIAL NAMED PORTS NO LVS BUILTIN DEVICE PIN SWAP NO LVS ALL CAPACITOR PINS SWAPPABLE NO LVS DISCARD PINS BY DEVICE NO LVS SOFT SUBSTRATE PINS NO LVS INJECT LOGIC YES LVS EXPAND UNBALANCED CELLS YES LVS FLATTEN INSIDE CELL NO LVS EXPAND SEED PROMOTIONS NO LVS PRESERVE PARAMETERIZED CELLS NO LVS GLOBALS ARE PORTS YES LVS REVERSE WL NO LVS SPICE PREFER PINS NO LVS SPICE SLASH IS SPACE YES LVS SPICE ALLOW FLOATING PINS YES // LVS SPICE ALLOW INLINE PARAMETERS LVS SPICE ALLOW UNQUOTED STRINGS NO LVS SPICE CONDITIONAL LDD NO LVS SPICE CULL PRIMITIVE SUBCIRCUITS NO LVS SPICE IMPLIED MOS AREA NO // LVS SPICE MULTIPLIER NAME LVS SPICE OVERRIDE GLOBALS NO LVS SPICE REDEFINE PARAM NO LVS SPICE REPLICATE DEVICES YES LVS SPICE SCALE X PARAMETERS NO LVS SPICE STRICT WL NO // LVS SPICE OPTION LVS STRICT SUBTYPES NO LVS EXACT SUBTYPES NO LAYOUT CASE NO SOURCE CASE NO LVS COMPARE CASE NO LVS DOWNCASE DEVICE NO LVS REPORT MAXIMUM 50 LVS PROPERTY RESOLUTION MAXIMUM 32 // LVS SIGNATURE MAXIMUM // LVS FILTER UNUSED OPTION // LVS REPORT OPTION LVS REPORT UNITS YES // LVS NON USER NAME PORT // LVS NON USER NAME NET // LVS NON USER NAME INSTANCE // LVS IGNORE DEVICE PIN // Reduction LVS REDUCE SERIES MOS NO LVS REDUCE PARALLEL MOS YES LVS REDUCE SEMI SERIES MOS NO LVS REDUCE SPLIT GATES YES [ TOLERANCE l 0 ] LVS REDUCE PARALLEL BIPOLAR YES LVS REDUCE SERIES CAPACITORS YES LVS REDUCE PARALLEL CAPACITORS YES LVS REDUCE SERIES RESISTORS YES LVS REDUCE PARALLEL RESISTORS YES LVS REDUCE PARALLEL DIODES YES LVS REDUCE MN(nfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MN(nfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE nfettw PARALLEL [ TOLERANCE l 0 ] LVS REDUCE nfettw SERIES S D [ TOLERANCE l 0 ] LVS REDUCE MP(pfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MP(pfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(lvtnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(lvtnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE lvtnfettw PARALLEL [ TOLERANCE l 0 ] LVS REDUCE lvtnfettw SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(lvtpfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(lvtpfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(hvtnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(hvtnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE hvtnfettw PARALLEL [ TOLERANCE l 0 ] LVS REDUCE hvtnfettw SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(hvtpfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(hvtpfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE MD(dgvnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MD(dgvnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE dgvnfettw PARALLEL [ TOLERANCE l 0 ] LVS REDUCE dgvnfettw SERIES S D [ TOLERANCE l 0 ] LVS REDUCE MD(dgvpfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MD(dgvpfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE MD(dgnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MD(dgnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE dgnfettw PARALLEL [ TOLERANCE l 0 ] LVS REDUCE dgnfettw SERIES S D [ TOLERANCE l 0 ] LVS REDUCE MD(dgpfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MD(dgpfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE MD(dgxnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MD(dgxnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE dgxnfettw PARALLEL [ TOLERANCE l 0 ] LVS REDUCE dgxnfettw SERIES S D [ TOLERANCE l 0 ] LVS REDUCE MD(dgxpfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MD(dgxpfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE MN(natnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MN(natnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE MN(natdgnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MN(natdgnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE MN(natdgxnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MN(natdgxnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE ME(ednfet) PARALLEL [ TOLERANCE l 0 w 0 ] LVS REDUCE ME(edpfet) PARALLEL [ TOLERANCE l 0 w 0 ] LVS REDUCE M(isoednfet) PARALLEL [ TOLERANCE l 0 w 0 ] LVS REDUCE M(isoedpfet) PARALLEL [ TOLERANCE l 0 w 0 ] LVS REDUCE M(isosednfet) PARALLEL [ TOLERANCE l 0 w 0 ] LVS REDUCE Q(ngrvpnp) PARALLEL [ TOLERANCE nf 0 w 0 l 0 nrep 0 mSwitch 0 ] LVS REDUCE Q(vpnp) PARALLEL [ TOLERANCE nf 0 w 0 l 0 nrep 0 mSwitch 0 ] LVS REDUCE Q(vnpn) PARALLEL [ TOLERANCE nf 0 w 0 l 0 nrep 0 ] LVS REDUCE R(opppcres) PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE R(opppcres) SERIES POS NEG [ TOLERANCE w 0 l 0 pbar 0 ] LVS REDUCE R(opppcres_1k) PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE R(opppcres_1k) SERIES POS NEG [ TOLERANCE w 0 l 0 pbar 0 ] LVS REDUCE R(opndres) PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE R(opndres) SERIES POS NEG [ TOLERANCE w 0 l 0 pbar 0 ] LVS REDUCE R(nwres) PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE R(nwres) SERIES POS NEG [ TOLERANCE w 0 l 0 pbar 0 ] LVS REDUCE R(lvsres) PARALLEL LVS REDUCE R(rm1) PARALLEL LVS REDUCE R(rm2) PARALLEL LVS REDUCE R(rm3) PARALLEL LVS REDUCE R(rm4) PARALLEL LVS REDUCE R(rm5) PARALLEL LVS REDUCE R(rmea) PARALLEL LVS REDUCE subc PARALLEL LVS REDUCE subc SERIES SUBCON sub NO LVS REDUCE C(pcap) PARALLEL [ TOLERANCE nf 0 w 0 l 0 nrep 0 composite 0 mSwitch 0 ] LVS REDUCE C(pcap) SERIES POS NEG NO LVS REDUCE C(dgpcap) PARALLEL [ TOLERANCE nf 0 w 0 l 0 nrep 0 composite 0 mSwitch 0 ] LVS REDUCE C(dgpcap) SERIES POS NEG NO LVS REDUCE C(ncap) PARALLEL [ TOLERANCE nf 0 w 0 l 0 nrep 0 composite 0 mSwitch 0 ] LVS REDUCE C(ncap) SERIES POS NEG NO LVS REDUCE C(dgncap) PARALLEL [ TOLERANCE nf 0 w 0 l 0 nrep 0 composite 0 mSwitch 0 ] LVS REDUCE C(dgncap) SERIES POS NEG NO LVS REDUCE C(vncap) PARALLEL NO LVS REDUCE C(vncap) SERIES POS NEG NO LVS REDUCE C(apmom) PARALLEL NO LVS REDUCE C(apmom) SERIES POS NEG NO LVS REDUCE C(vncap_rf) PARALLEL NO LVS REDUCE C(vncap_rf) SERIES POS NEG NO LVS REDUCE C(apmom_rf) PARALLEL NO LVS REDUCE C(apmom_rf) SERIES POS NEG NO LVS REDUCE C(MOM20_rf) PARALLEL NO LVS REDUCE C(MOM24_rf) PARALLEL NO LVS REDUCE C(MOM25_rf) PARALLEL NO LVS REDUCE C(MOM20_rf) SERIES POS NEG NO LVS REDUCE C(MOM24_rf) SERIES POS NEG NO LVS REDUCE C(MOM25_rf) SERIES POS NEG NO LVS REDUCE sblkndres PARALLEL NO LVS REDUCE sblkpdres PARALLEL NO LVS REDUCE D(esdndsx) PARALLEL LVS REDUCE Q(esdvpnp) PARALLEL [ TOLERANCE nf 0 A 0 ] LVS REDUCE Q(esdvnpn) PARALLEL [ TOLERANCE nf 0 A 0 ] LVS REDUCE M(srpubpfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(srpubpfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(srpdbnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(srpdbnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(srpgbnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(srpgbnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(srpucpfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(srpucpfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(srpdcnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(srpdcnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(srpgcnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(srpgcnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(srpudpfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(srpudpfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(srpddnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(srpddnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE M(srpgdnfet) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(srpgdnfet) SERIES S D [ TOLERANCE l 0 ] LVS REDUCE C(ncap_rf) PARALLEL [ TOLERANCE nf 0 w 0 l 0 nrep 0 composite 0 mSwitch 0 ] LVS REDUCE C(ncap_rf) SERIES POS NEG NO LVS REDUCE C(dgncap_rf) PARALLEL [ TOLERANCE nf 0 w 0 l 0 nrep 0 composite 0 mSwitch 0 ] LVS REDUCE C(dgncap_rf) SERIES POS NEG NO LVS REDUCE pcap_rf PARALLEL [ TOLERANCE nf 0 w 0 l 0 nrep 0 composite 0 mSwitch 0 ] LVS REDUCE pcap_rf SERIES G D NO LVS REDUCE dgpcap_rf PARALLEL [ TOLERANCE nf 0 w 0 l 0 nrep 0 composite 0 mSwitch 0 ] LVS REDUCE dgpcap_rf SERIES G D NO LVS REDUCE MN(nfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE nfettw_rf PARALLEL NO LVS REDUCE MP(pfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(lvtnfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE lvtnfettw_rf PARALLEL NO LVS REDUCE M(lvtpfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE M(hvtnfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE hvtnfettw_rf PARALLEL NO LVS REDUCE M(hvtpfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MD(dgvnfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE dgvnfettw_rf PARALLEL NO LVS REDUCE MD(dgvpfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MD(dgxnfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE dgxnfettw_rf PARALLEL NO LVS REDUCE MD(dgxpfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE MD(dgnfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE dgnfettw_rf PARALLEL NO LVS REDUCE MD(dgpfet_rf) PARALLEL [ TOLERANCE l 0 ] LVS REDUCE ME(ednfet_rf) PARALLEL [ TOLERANCE l 0 w 0 ] LVS REDUCE ME(edpfet_rf) PARALLEL [ TOLERANCE l 0 w 0 ] LVS REDUCE C(mimcap_alt) PARALLEL [ TOLERANCE w 0 l 0 ] LVS REDUCE C(mimcap_alt_bb) PARALLEL [ TOLERANCE w 0 l 0 ] LVS REDUCE C(mimcap_alt) SERIES POS NEG NO LVS REDUCE C(mimcap_alt_bb) SERIES POS NEG NO LVS REDUCE D(esdndsx_rf) PARALLEL LVS REDUCE Q(esdvpnp_rf) PARALLEL [ TOLERANCE nf 0 A 0 ] LVS REDUCE Q(esdvnpn_rf) PARALLEL [ TOLERANCE nf 0 A 0 ] LVS REDUCE R(oprppres) PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE R(oprppres) SERIES POS NEG [ TOLERANCE w 0 l 0 s 0 pbar 0 ] LVS REDUCE npolyf_s PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE npolyf_u PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE ppolyf_s PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE nplus_s PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE pplus_s PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE pplus_u PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE nwella PARALLEL [ TOLERANCE w 0 l 0 s 0 ] LVS REDUCE npolyf_s SERIES PLUS MINUS [ TOLERANCE w 0 l 0 pbar 0 ] LVS REDUCE npolyf_u SERIES PLUS MINUS [ TOLERANCE w 0 l 0 pbar 0 ] LVS REDUCE ppolyf_s SERIES PLUS MINUS [ TOLERANCE w 0 l 0 pbar 0 ] LVS REDUCE nplus_s SERIES PLUS MINUS [ TOLERANCE w 0 l 0 pbar 0 ] LVS REDUCE pplus_s SERIES PLUS MINUS [ TOLERANCE w 0 l 0 pbar 0 ] LVS REDUCE pplus_u SERIES PLUS MINUS [ TOLERANCE w 0 l 0 pbar 0 ] LVS REDUCE nwella SERIES PLUS MINUS [ TOLERANCE w 0 l 0 pbar 0 ] LVS REDUCE MN(nmos_5p0_asym) PARALLEL [ TOLERANCE l 0 w 0 nf 0 ] LVS REDUCE MP(pmos_5p0_asym) PARALLEL [ TOLERANCE l 0 w 0 nf 0 ] LVS REDUCE D(tdpdnw) PARALLEL LVS REDUCE D(tdndsx) PARALLEL LVS REDUCE D(tddgpdnw) PARALLEL LVS REDUCE D(tddgndsx) PARALLEL LVS REDUCTION PRIORITY PARALLEL LVS SHORT EQUIVALENT NODES NO // Filter LVS FILTER D(diodepwtw) OPEN LVS FILTER D(diodetwx) OPEN LVS FILTER D(diodenwx) OPEN LVS FILTER D(diodenx) OPEN LVS FILTER D(diodepnw) OPEN LVS FILTER D(diodedgnx) OPEN LVS FILTER D(diodedgpnw) OPEN LVS FILTER D(diodehvpwtw) OPEN LVS FILTER D(diodeisotwx) OPEN // Trace Property TRACE PROPERTY mn(nfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY mn(nfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY nfettw l l 2.5e-09 ABSOLUTE TRACE PROPERTY nfettw w w 2.5e-09 ABSOLUTE TRACE PROPERTY mp(pfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY mp(pfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(lvtnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(lvtnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY lvtnfettw l l 2.5e-09 ABSOLUTE TRACE PROPERTY lvtnfettw w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(lvtpfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(lvtpfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(hvtnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(hvtnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY hvtnfettw l l 2.5e-09 ABSOLUTE TRACE PROPERTY hvtnfettw w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(hvtpfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(hvtpfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgvnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgvnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY dgvnfettw l l 2.5e-09 ABSOLUTE TRACE PROPERTY dgvnfettw w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgvpfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgvpfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY dgnfettw l l 2.5e-09 ABSOLUTE TRACE PROPERTY dgnfettw w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgpfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgpfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgxnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgxnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY dgxnfettw l l 2.5e-09 ABSOLUTE TRACE PROPERTY dgxnfettw w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgxpfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgxpfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY mn(natnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY mn(natnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY mn(natdgnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY mn(natdgnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY mn(natdgxnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY mn(natdgxnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY me(ednfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY me(ednfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY me(edpfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY me(edpfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(isoednfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(isoednfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(isoedpfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(isoedpfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(isosednfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(isosednfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY q(ngrvpnp) w w 2.5e-09 ABSOLUTE TRACE PROPERTY q(ngrvpnp) l l 2.5e-09 ABSOLUTE TRACE PROPERTY q(ngrvpnp) nf nf 0 TRACE PROPERTY q(ngrvpnp) nrep nrep 0 TRACE PROPERTY q(ngrvpnp) m m 0 TRACE PROPERTY q(vpnp) w w 2.5e-09 ABSOLUTE TRACE PROPERTY q(vpnp) l l 2.5e-09 ABSOLUTE TRACE PROPERTY q(vpnp) nf nf 0 TRACE PROPERTY q(vpnp) nrep nrep 0 TRACE PROPERTY q(vpnp) m m 0 TRACE PROPERTY q(vnpn) w w 2.5e-09 ABSOLUTE TRACE PROPERTY q(vnpn) l l 2.5e-09 ABSOLUTE TRACE PROPERTY q(vnpn) nf nf 0 TRACE PROPERTY q(vnpn) nrep nrep 0 TRACE PROPERTY q(vnpn) m m 0 TRACE PROPERTY r(opppcres) l l 2.5e-09 ABSOLUTE TRACE PROPERTY r(opppcres) w w 2.5e-09 ABSOLUTE TRACE PROPERTY r(opppcres) s s 2.5e-09 ABSOLUTE TRACE PROPERTY r(opppcres) pbar pbar 2.5e-09 ABSOLUTE TRACE PROPERTY r(opppcres_1k) l l 2.5e-09 ABSOLUTE TRACE PROPERTY r(opppcres_1k) w w 2.5e-09 ABSOLUTE TRACE PROPERTY r(opppcres_1k) s s 2.5e-09 ABSOLUTE TRACE PROPERTY r(opppcres_1k) pbar pbar 2.5e-09 ABSOLUTE TRACE PROPERTY r(opndres) l l 2.5e-09 ABSOLUTE TRACE PROPERTY r(opndres) w w 2.5e-09 ABSOLUTE TRACE PROPERTY r(opndres) s s 2.5e-09 ABSOLUTE TRACE PROPERTY r(opndres) pbar pbar 2.5e-09 ABSOLUTE TRACE PROPERTY r(nwres) l l 2.5e-09 ABSOLUTE TRACE PROPERTY r(nwres) w w 2.5e-09 ABSOLUTE TRACE PROPERTY r(nwres) s s 2.5e-09 ABSOLUTE TRACE PROPERTY r(nwres) pbar pbar 2.5e-09 ABSOLUTE TRACE PROPERTY r(rm1) l l 2.5e-09 ABSOLUTE TRACE PROPERTY r(rm1) w w 2.5e-09 ABSOLUTE TRACE PROPERTY r(rm2) l l 2.5e-09 ABSOLUTE TRACE PROPERTY r(rm2) w w 2.5e-09 ABSOLUTE TRACE PROPERTY r(rm3) l l 2.5e-09 ABSOLUTE TRACE PROPERTY r(rm3) w w 2.5e-09 ABSOLUTE TRACE PROPERTY r(rm4) l l 2.5e-09 ABSOLUTE TRACE PROPERTY r(rm4) w w 2.5e-09 ABSOLUTE TRACE PROPERTY r(rm5) l l 2.5e-09 ABSOLUTE TRACE PROPERTY r(rm5) w w 2.5e-09 ABSOLUTE TRACE PROPERTY r(rmea) l l 2.5e-09 ABSOLUTE TRACE PROPERTY r(rmea) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(pcap) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(pcap) nf nf 0.5 ABSOLUTE TRACE PROPERTY c(pcap) nrep nrep 0.5 ABSOLUTE TRACE PROPERTY c(pcap) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(pcap) m m 0.5 ABSOLUTE TRACE PROPERTY c(dgpcap) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(dgpcap) nf nf 0.5 ABSOLUTE TRACE PROPERTY c(dgpcap) nrep nrep 0.5 ABSOLUTE TRACE PROPERTY c(dgpcap) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(dgpcap) m m 0.5 ABSOLUTE TRACE PROPERTY c(ncap) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(ncap) nf nf 0.5 ABSOLUTE TRACE PROPERTY c(ncap) nrep nrep 0.5 ABSOLUTE TRACE PROPERTY c(ncap) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(ncap) m m 0.5 ABSOLUTE TRACE PROPERTY c(dgncap) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(dgncap) nf nf 0.5 ABSOLUTE TRACE PROPERTY c(dgncap) nrep nrep 0.5 ABSOLUTE TRACE PROPERTY c(dgncap) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(dgncap) m m 0.5 ABSOLUTE TRACE PROPERTY c(vncap) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(vncap) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(vncap) botlev botlev 0.5 TRACE PROPERTY c(vncap) toplev toplev 0.5 TRACE PROPERTY c(apmom) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(apmom) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(apmom) botlev botlev 0.5 TRACE PROPERTY c(apmom) toplev toplev 0.5 TRACE PROPERTY c(vncap_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(vncap_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(vncap_rf) botlev botlev 0.5 TRACE PROPERTY c(vncap_rf) toplev toplev 0.5 TRACE PROPERTY c(apmom_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(apmom_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(apmom_rf) botlev botlev 0.5 TRACE PROPERTY c(apmom_rf) toplev toplev 0.5 TRACE PROPERTY c(mom20_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(mom20_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(mom20_rf) botlev botlev 0.5 TRACE PROPERTY c(mom20_rf) toplev toplev 0.5 TRACE PROPERTY c(mom20_rf) shield_option shield_option 0 TRACE PROPERTY c(mom24_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(mom24_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(mom24_rf) botlev botlev 0.5 TRACE PROPERTY c(mom24_rf) toplev toplev 0.5 TRACE PROPERTY c(mom24_rf) shield_option shield_option 0 TRACE PROPERTY c(mom25_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(mom25_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(mom25_rf) botlev botlev 0.5 TRACE PROPERTY c(mom25_rf) toplev toplev 0.5 TRACE PROPERTY c(mom25_rf) shield_option shield_option 0 TRACE PROPERTY sblkndres l l 2.5e-09 ABSOLUTE TRACE PROPERTY sblkndres w w 2.5e-09 ABSOLUTE TRACE PROPERTY sblkpdres l l 2.5e-09 ABSOLUTE TRACE PROPERTY sblkpdres w w 2.5e-09 ABSOLUTE TRACE PROPERTY d(esdndsx) a a 1 TRACE PROPERTY d(esdndsx) nf nf 0.5 ABSOLUTE TRACE PROPERTY d(esdndsx) perim perim 1 TRACE PROPERTY q(esdvpnp) a a 1 TRACE PROPERTY q(esdvpnp) nf nf 0.5 ABSOLUTE TRACE PROPERTY q(esdvnpn) a a 1 TRACE PROPERTY q(esdvnpn) nf nf 0.5 ABSOLUTE TRACE PROPERTY esdscr_dw nf nf 0 TRACE PROPERTY esdscr_dw ntds ntds 0 TRACE PROPERTY esdscr_dw areapd areapd 1 TRACE PROPERTY esdscr_dw perimpd perimpd 1e-07 ABSOLUTE TRACE PROPERTY esdscr_dw areanw areanw 1 TRACE PROPERTY esdscr_dw perimnw perimnw 1e-07 ABSOLUTE TRACE PROPERTY esdscr_dw areand areand 1 TRACE PROPERTY esdscr_dw perimnd perimnd 1e-07 ABSOLUTE TRACE PROPERTY esdscr_tw nf nf 0 TRACE PROPERTY esdscr_tw ntds ntds 0 TRACE PROPERTY esdscr_tw areapd areapd 1 TRACE PROPERTY esdscr_tw perimpd perimpd 1e-07 ABSOLUTE TRACE PROPERTY esdscr_tw areanw areanw 1 TRACE PROPERTY esdscr_tw perimnw perimnw 1e-07 ABSOLUTE TRACE PROPERTY esdscr_tw areand areand 1 TRACE PROPERTY esdscr_tw perimnd perimnd 1e-07 ABSOLUTE TRACE PROPERTY esdscr_tw areapw areapw 1 TRACE PROPERTY esdscr_tw perimpw perimpw 1e-07 ABSOLUTE TRACE PROPERTY m(srpubpfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpubpfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpdbnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpdbnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpgbnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpgbnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpucpfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpucpfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpdcnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpdcnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpgcnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpgcnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpudpfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpudpfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpddnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpddnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpgdnfet) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(srpgdnfet) w w 2.5e-09 ABSOLUTE TRACE PROPERTY symindp din din 0 TRACE PROPERTY symindp width width 0 TRACE PROPERTY symindp n n 0 TRACE PROPERTY symindp ct ct 0 TRACE PROPERTY symindp shield shield 0 TRACE PROPERTY c(ncap_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(ncap_rf) nf nf 0.5 ABSOLUTE TRACE PROPERTY c(ncap_rf) nrep nrep 0.5 ABSOLUTE TRACE PROPERTY c(ncap_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(ncap_rf) m m 0.5 ABSOLUTE TRACE PROPERTY c(dgncap_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(dgncap_rf) nf nf 0.5 ABSOLUTE TRACE PROPERTY c(dgncap_rf) nrep nrep 0.5 ABSOLUTE TRACE PROPERTY c(dgncap_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(dgncap_rf) m m 0.5 ABSOLUTE TRACE PROPERTY pcap_rf l l 2.5e-09 ABSOLUTE TRACE PROPERTY pcap_rf nf nf 0.5 ABSOLUTE TRACE PROPERTY pcap_rf nrep nrep 0.5 ABSOLUTE TRACE PROPERTY pcap_rf w w 2.5e-09 ABSOLUTE TRACE PROPERTY pcap_rf m m 0.5 ABSOLUTE TRACE PROPERTY dgpcap_rf l l 2.5e-09 ABSOLUTE TRACE PROPERTY dgpcap_rf nf nf 0.5 ABSOLUTE TRACE PROPERTY dgpcap_rf nrep nrep 0.5 ABSOLUTE TRACE PROPERTY dgpcap_rf w w 2.5e-09 ABSOLUTE TRACE PROPERTY dgpcap_rf m m 0.5 ABSOLUTE TRACE PROPERTY mn(nfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY mn(nfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY nfettw_rf l l 2.5e-09 ABSOLUTE TRACE PROPERTY nfettw_rf w w 2.5e-09 ABSOLUTE TRACE PROPERTY mp(pfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY mp(pfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(lvtnfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(lvtnfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY lvtnfettw_rf l l 2.5e-09 ABSOLUTE TRACE PROPERTY lvtnfettw_rf w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(lvtpfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(lvtpfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(hvtnfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(hvtnfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY hvtnfettw_rf l l 2.5e-09 ABSOLUTE TRACE PROPERTY hvtnfettw_rf w w 2.5e-09 ABSOLUTE TRACE PROPERTY m(hvtpfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY m(hvtpfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgvnfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgvnfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY dgvnfettw_rf l l 2.5e-09 ABSOLUTE TRACE PROPERTY dgvnfettw_rf w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgvpfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgvpfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgxnfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgxnfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY dgxnfettw_rf l l 2.5e-09 ABSOLUTE TRACE PROPERTY dgxnfettw_rf w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgxpfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgxpfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgnfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgnfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY dgnfettw_rf l l 2.5e-09 ABSOLUTE TRACE PROPERTY dgnfettw_rf w w 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgpfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY md(dgpfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY me(ednfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY me(ednfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY me(edpfet_rf) l l 2.5e-09 ABSOLUTE TRACE PROPERTY me(edpfet_rf) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(mimcap_alt) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(mimcap_alt) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(mimcap_alt) lrep lrep 0.5 ABSOLUTE TRACE PROPERTY c(mimcap_alt) wrep wrep 0.5 ABSOLUTE TRACE PROPERTY c(mimcap_alt_bb) l l 2.5e-09 ABSOLUTE TRACE PROPERTY c(mimcap_alt_bb) w w 2.5e-09 ABSOLUTE TRACE PROPERTY c(mimcap_alt_bb) lrep lrep 0.5 ABSOLUTE TRACE PROPERTY c(mimcap_alt_bb) wrep wrep 0.5 ABSOLUTE TRACE PROPERTY indp n n 0 TRACE PROPERTY indp din din 0 TRACE PROPERTY indp width width 0 TRACE PROPERTY indp shield shield 0 TRACE PROPERTY d(esdndsx_rf) a a 1 TRACE PROPERTY d(esdndsx_rf) nf nf 0.5 ABSOLUTE TRACE PROPERTY d(esdndsx_rf) perim perim 1 TRACE PROPERTY q(esdvpnp_rf) a a 1 TRACE PROPERTY q(esdvpnp_rf) nf nf 0.5 ABSOLUTE TRACE PROPERTY q(esdvnpn_rf) a a 1 TRACE PROPERTY q(esdvnpn_rf) nf nf 0.5 ABSOLUTE TRACE PROPERTY r(oprppres) l l 2.5e-09 ABSOLUTE TRACE PROPERTY r(oprppres) w w 2.5e-09 ABSOLUTE TRACE PROPERTY r(oprppres) s s 2.5e-09 ABSOLUTE TRACE PROPERTY r(oprppres) pbar pbar 2.5e-09 ABSOLUTE TRACE PROPERTY bondpad l l 2.5e-09 ABSOLUTE TRACE PROPERTY bondpad w w 2.5e-09 ABSOLUTE TRACE PROPERTY bondpad bp bp 0 TRACE PROPERTY bondpad rect rect 0 TRACE PROPERTY esdscr_dw_rf nf nf 0 TRACE PROPERTY esdscr_dw_rf ntds ntds 0 TRACE PROPERTY esdscr_dw_rf areapd areapd 1 TRACE PROPERTY esdscr_dw_rf perimpd perimpd 1e-07 ABSOLUTE TRACE PROPERTY esdscr_dw_rf areanw areanw 1 TRACE PROPERTY esdscr_dw_rf perimnw perimnw 1e-07 ABSOLUTE TRACE PROPERTY esdscr_dw_rf areand areand 1 TRACE PROPERTY esdscr_dw_rf perimnd perimnd 1e-07 ABSOLUTE TRACE PROPERTY esdscr_tw_rf nf nf 0 TRACE PROPERTY esdscr_tw_rf ntds ntds 0 TRACE PROPERTY esdscr_tw_rf areapd areapd 1 TRACE PROPERTY esdscr_tw_rf perimpd perimpd 1e-07 ABSOLUTE TRACE PROPERTY esdscr_tw_rf areanw areanw 1 TRACE PROPERTY esdscr_tw_rf perimnw perimnw 1e-07 ABSOLUTE TRACE PROPERTY esdscr_tw_rf areand areand 1 TRACE PROPERTY esdscr_tw_rf perimnd perimnd 1e-07 ABSOLUTE TRACE PROPERTY esdscr_tw_rf areapw areapw 1 TRACE PROPERTY esdscr_tw_rf perimpw perimpw 1e-07 ABSOLUTE TRACE PROPERTY mn(nmos_5p0_asym) l l 2.5e-09 ABSOLUTE TRACE PROPERTY mn(nmos_5p0_asym) w w 2.5e-09 ABSOLUTE TRACE PROPERTY mp(pmos_5p0_asym) l l 2.5e-09 ABSOLUTE TRACE PROPERTY mp(pmos_5p0_asym) w w 2.5e-09 ABSOLUTE TRACE PROPERTY npolyf_s l l 2.5e-09 ABSOLUTE TRACE PROPERTY npolyf_s w w 2.5e-09 ABSOLUTE TRACE PROPERTY npolyf_s m m 0 TRACE PROPERTY npolyf_s s s 2.5e-09 ABSOLUTE TRACE PROPERTY npolyf_s pbar pbar 2.5e-09 ABSOLUTE TRACE PROPERTY npolyf_u l l 2.5e-09 ABSOLUTE TRACE PROPERTY npolyf_u w w 2.5e-09 ABSOLUTE TRACE PROPERTY npolyf_u m m 0 TRACE PROPERTY npolyf_u s s 2.5e-09 ABSOLUTE TRACE PROPERTY npolyf_u pbar pbar 2.5e-09 ABSOLUTE TRACE PROPERTY ppolyf_s l l 2.5e-09 ABSOLUTE TRACE PROPERTY ppolyf_s w w 2.5e-09 ABSOLUTE TRACE PROPERTY ppolyf_s m m 0 TRACE PROPERTY ppolyf_s s s 2.5e-09 ABSOLUTE TRACE PROPERTY ppolyf_s pbar pbar 2.5e-09 ABSOLUTE TRACE PROPERTY nplus_s l l 2.5e-09 ABSOLUTE TRACE PROPERTY nplus_s w w 2.5e-09 ABSOLUTE TRACE PROPERTY nplus_s m m 0 TRACE PROPERTY nplus_s s s 2.5e-09 ABSOLUTE TRACE PROPERTY nplus_s pbar pbar 2.5e-09 ABSOLUTE TRACE PROPERTY pplus_s l l 2.5e-09 ABSOLUTE TRACE PROPERTY pplus_s w w 2.5e-09 ABSOLUTE TRACE PROPERTY pplus_s m m 0 TRACE PROPERTY pplus_s s s 2.5e-09 ABSOLUTE TRACE PROPERTY pplus_s pbar pbar 2.5e-09 ABSOLUTE TRACE PROPERTY pplus_u l l 2.5e-09 ABSOLUTE TRACE PROPERTY pplus_u w w 2.5e-09 ABSOLUTE TRACE PROPERTY pplus_u m m 0 TRACE PROPERTY pplus_u s s 2.5e-09 ABSOLUTE TRACE PROPERTY pplus_u pbar pbar 2.5e-09 ABSOLUTE TRACE PROPERTY nwella l l 2.5e-09 ABSOLUTE TRACE PROPERTY nwella w w 2.5e-09 ABSOLUTE TRACE PROPERTY nwella m m 0 TRACE PROPERTY nwella s s 2.5e-09 ABSOLUTE TRACE PROPERTY nwella pbar pbar 2.5e-09 ABSOLUTE CELL COMPARISON RESULTS ( TOP LEVEL ) # ################### _ _ # # # * * # # # CORRECT # | # # # # \___/ # ################### LAYOUT CELL NAME: pcd_inv_L SOURCE CELL NAME: pcd_inv_L -------------------------------------------------------------------------------------------------------------- NUMBERS OF OBJECTS ------------------ Layout Source Component Type ------ ------ -------------- Ports: 5 5 Nets: 5 5 Instances: 2 2 MD (4 pins) ------ ------ Total Inst: 2 2 ************************************************************************************************************** INFORMATION AND WARNINGS ************************************************************************************************************** Matched Matched Unmatched Unmatched Component Layout Source Layout Source Type ------- ------- --------- --------- --------- Ports: 5 5 0 0 Nets: 5 5 0 0 Instances: 1 1 0 0 MD(DGNFET) 1 1 0 0 MD(DGPFET) ------- ------- --------- --------- Total Inst: 2 2 0 0 o Layout Names That Are Missing In The Source: Ports: VN: Nets: VN: o Initial Correspondence Points: Ports: SB VP A Y ************************************************************************************************************** SUMMARY ************************************************************************************************************** Total CPU Time: 1 sec Total Elapsed Time: 1 sec