Cadence (R) Virtuoso (R) Spectre (R) Circuit Simulator Version 15.1.0.801.isr17 64bit -- 19 Apr 2017 Copyright (C) 1989-2017 Cadence Design Systems, Inc. All rights reserved worldwide. Cadence, Virtuoso and Spectre are registered trademarks of Cadence Design Systems, Inc. All others are the property of their respective holders. Includes RSA BSAFE(R) Cryptographic or Security Protocol Software from RSA Security, Inc. User: yafimv Host: micron.eng.tau.ac.il HostID: 428454C2 PID: 30565 Memory available: 19.0585 GB physical: 33.6702 GB Linux : Red Hat Enterprise Linux Server release 6.9 (Santiago) CPU Type: Intel(R) Xeon(R) CPU E5420 @ 2.50GHz All processors running at 1998.0 MHz Socket: Processors 0: 0, 2, 4, 6 1: 1, 3, 5, 7 System load averages (1min, 5min, 15min) : 0.2 %, 0.9 %, 0.2 % Simulating `input.scs' on micron.eng.tau.ac.il at 2:15:44 AM, Sun Feb 17, 2019 (process id: 30565). Current working directory: /data.cc/data/a/home/cc/students/enginer/yafimv/simulation/ex5_total/spectre/schematic/netlist Command line: /eda_disk/cadence/tools/MMSIM/151/tools/bin/spectre -64 input.scs \ +escchars +log ../psf/spectre.out +inter=mpsc \ +mpssession=spectre0_26908_2 -format psfxl -raw ../psf \ +lqtimeout 900 -maxw 5 -maxn 5 spectre pid = 30565 Loading /eda_disk/cadence/tools/MMSIM/151/tools.lnx86/cmi/lib/64bit/5.0/libinfineon_sh.so ... Loading /eda_disk/cadence/tools/MMSIM/151/tools.lnx86/cmi/lib/64bit/5.0/libphilips_o_sh.so ... Loading /eda_disk/cadence/tools/MMSIM/151/tools.lnx86/cmi/lib/64bit/5.0/libphilips_sh.so ... Loading /eda_disk/cadence/tools/MMSIM/151/tools.lnx86/cmi/lib/64bit/5.0/libsparam_sh.so ... Loading /eda_disk/cadence/tools/MMSIM/151/tools.lnx86/cmi/lib/64bit/5.0/libstmodels_sh.so ... Reading file: /data.cc/data/a/home/cc/students/enginer/yafimv/simulation/ex5_total/spectre/schematic/netlist/input.scs Reading file: /eda_disk/cadence/tools/MMSIM/151/tools.lnx86/spectre/etc/configs/spectre.cfg Reading file: /eda_disk/cadence/tools/MMSIM/151/tools.lnx86/spectre/etc/configs/mapsubckt.cfg Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_25IO_NVT_V021.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_25IO_NVT_V021.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_25IO_V111.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_25IO_V111.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_NCAP25_V113.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_NCAP25_V113.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_varmis_25_rf_V011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_varmis_25_rf_V011.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_33IO_GOX52_VT21.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_33IO_GOX52_VT21.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_25IO_RF_V021.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_25IO_RF_V021.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90-resistor-control-V041.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_res.va Reading link: /eda_disk/cadence/tools/MMSIM/151/tools.lnx86/spectre/etc/ahdl/constants.h Reading file: /eda_disk/cadence/tools/MMSIM/151/tools.lnx86/spectre/etc/ahdl/constants.vams Reading link: /eda_disk/cadence/tools/MMSIM/151/tools.lnx86/spectre/etc/ahdl/discipline.h Reading file: /eda_disk/cadence/tools/MMSIM/151/tools.lnx86/spectre/etc/ahdl/disciplines.vams Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_r_ppo_V031.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_r_ppo_V031.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_r_npo_V031.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_r_npo_V031.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_rnhr_V031.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_rnhr_V031.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_rsnwell_V031.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_rsnwell_V031.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_r_nd_V031.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_r_nd_V031.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_r_pd_V031.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_r_pd_V031.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_r_metal_V011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_r_metal_V011.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_BJT_V111.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_BJT_V111.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_DIODE_V101.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LL12_RF_V021.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LL12_RF_V021.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LLLVT12_RF_VTAB.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LLLVT12_RF_VTAB.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LL12_V102.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LL12_V102.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LLHVT12_V101.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LLHVT12_V101.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LLLVT12_V102.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LLLVT12_V102.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LLNVT12_V011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_LLNVT12_V011.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90SP_NCAP10_V112.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90SP_NCAP10_V112.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_NCAP12_LL_V102.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_NCAP12_LL_V102.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_SP10_V061.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_SP10_V061.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_SPHVT10_V111.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_SPHVT10_V111.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_SPLVT10_V102.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_SPLVT10_V102.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_SPNVT10_V011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_SPNVT10_V011.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_mimcaps_20f_kf_V011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_mimcaps_20f_kf_V011.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_momcaps_V041.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_momcaps_V041.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_vardiop_rf_v011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_vardiop_rf_v011.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_varmis_12_llrf_V021.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_varmis_12_llrf_V021.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/momcaps_array_vp3_rfvcl_V011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/momcaps_array_vp3_rfvcl_V011.typ.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/momcaps_array_vp4_rfvcl_V011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/momcaps_array_vp4_rfvcl_V011.typ.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/rnhr_rf_V011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/rnhr_rf_V011.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/res_poly.va Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/rnnpo_rf_V011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/rnnpo_rf_V011.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/rnppo_rf_V011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/rnppo_rf_V011.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_varmis_10_sprf_V011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_varmis_10_sprf_V011.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/bond_pad_v011.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/bond_pad_v011.mdl.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_SP10_RF_V021.lib.scs Reading file: /eda_disk/pdks/UMC/UMC90nm/Models/Spectre/L90_SP10_RF_V021.mdl.scs Time for NDB Parsing: CPU = 210.967 ms, elapsed = 374.067 ms. Time accumulated: CPU = 243.961 ms, elapsed = 374.078 ms. Peak resident memory used = 45.4 Mbytes. The CPU load for active processors is : Spectre 0 (57.9 %) 1 (5.4 %) 2 (2.6 %) 3 (2.7 %) 4 (10.5 %) 5 (5.4 %) 6 (5.4 %) 7 (5.6 %) Other Warning from spectre during circuit read-in. WARNING (SFE-2654): VerilogA module `respoly_va' override primitive/(verilogA module) `respoly_va'. WARNING (SFE-2654): VerilogA module `respoly_va' override primitive/(verilogA module) `respoly_va'. Warning from spectre during hierarchy flattening. WARNING (SFE-1131): Duplicate scope option `tnom' with scope `TopCircuit'. (using last value specified). Time for Elaboration: CPU = 75.989 ms, elapsed = 78.5899 ms. Time accumulated: CPU = 319.95 ms, elapsed = 452.946 ms. Peak resident memory used = 54 Mbytes. Time for EDB Visiting: CPU = 3 ms, elapsed = 2.94399 ms. Time accumulated: CPU = 323.95 ms, elapsed = 456.186 ms. Peak resident memory used = 54.8 Mbytes. Global user options: reltol = 0.001 vabstol = 1e-06 iabstol = 1e-12 temp = 27 gmin = 1e-12 rforce = 1 maxnotes = 5 maxwarns = 5 digits = 5 cols = 80 pivrel = 0.001 sensfile = ../psf/sens.output checklimitdest = psf save = allpub tnom = 25 tnom = 27 scalem = 1 scale = 1 Scoped user options: Circuit inventory: nodes 54 bsim4 13 capacitor 79 diode 4 inductor 12 resistor 35 vsource 12 Analysis and control statement inventory: hb 1 info 6 Output statements: .probe 0 .measure 0 save 0 Time for parsing: CPU = 4.999 ms, elapsed = 5.30481 ms. Time accumulated: CPU = 328.949 ms, elapsed = 461.683 ms. Peak resident memory used = 56.3 Mbytes. ~~~~~~~~~~~~~~~~~~~~~~ Pre-Simulation Summary ~~~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~~~~ Entering remote command mode using MPSC service (spectre, ipi, v0.0, spectre0_26908_2, ). Warning from spectre. WARNING (SPECTRE-16707): Only tran supports psfxl format, result of other analyses will be in psfbin format. Fundamental 0 in fundfreqs: period = 303.03 ps, freq = 3.3 GHz, harms = 5, oversample = 1. Fundamental 1 in fundfreqs: period = 150.15 ps, freq = 6.66 GHz, harms = 5, oversample = 1. **************************************************************** Harmonic Balance Steady State Analysis `hb': largefund = 3.3 GHz **************************************************************** Notice from spectre during IC analysis, during periodic steady state analysis, during Harmonic Balance Steady State Analysis `hb'. There are 4 IC nodes defined. Trying `homotopy = gmin' for initial conditions. Notice from spectre during IC analysis, during periodic steady state analysis, during Harmonic Balance Steady State Analysis `hb'. Initial condition computed for node out_p is in error by 30.4441 mV (30.4441 %). Initial condition computed for node out_n is in error by 33.2117 mV. Initial condition computed for node out_n2 is in error by 62.1781 mV. Initial condition computed for node out_p2 is in error by 56.9966 mV (56.9966 %). Decrease `rforce' to reduce error in computed initial conditions. However, setting rforce too small may result in convergence difficulties or in the matrix becoming singular. DC simulation time: CPU = 23.996 ms, elapsed = 24.724 ms. ================================ `hb': time = (0 s -> 15.1515 ns) ================================ Output and IC/nodeset summary: ic 4 Important parameter values in tstab integration: start = 0 s outputstart = 0 s stop = 15.1515 ns step = 15.1515 ps maxstep = 3.0303 ps ic = all useprevic = no skipdc = no reltol = 1e-03 abstol(V) = 1 uV abstol(I) = 1 pA temp = 27 C tnom = 27 C tempeffects = all method = gear2only lteratio = 3.5 relref = sigglobal cmin = 0 F gmin = 1 pS hb: time = 380.4 ps (2.51 %), step = 3.03 ps (20 m%) Warning from spectre at time = 913.048 ps during periodic steady state analysis, during Harmonic Balance Steady State Analysis `hb'. WARNING (SPECTRE-16780): LTE tolerance was temporarily relaxed to step over a discontinuity in the signal: net09. hb: time = 1.138 ns (7.51 %), step = 3.03 ps (20 m%) hb: time = 1.896 ns (12.5 %), step = 3.03 ps (20 m%) hb: time = 2.653 ns (17.5 %), step = 3.03 ps (20 m%) hb: time = 3.411 ns (22.5 %), step = 3.03 ps (20 m%) hb: time = 4.169 ns (27.5 %), step = 3.03 ps (20 m%) hb: time = 4.926 ns (32.5 %), step = 3.03 ps (20 m%) hb: time = 5.684 ns (37.5 %), step = 3.03 ps (20 m%) hb: time = 6.441 ns (42.5 %), step = 3.03 ps (20 m%) hb: time = 7.199 ns (47.5 %), step = 3.03 ps (20 m%) hb: time = 7.956 ns (52.5 %), step = 3.03 ps (20 m%) hb: time = 8.714 ns (57.5 %), step = 3.03 ps (20 m%) hb: time = 9.472 ns (62.5 %), step = 3.03 ps (20 m%) hb: time = 10.23 ns (67.5 %), step = 3.03 ps (20 m%) hb: time = 10.99 ns (72.5 %), step = 3.03 ps (20 m%) hb: time = 11.74 ns (77.5 %), step = 3.03 ps (20 m%) hb: time = 12.5 ns (82.5 %), step = 3.03 ps (20 m%) hb: time = 13.26 ns (87.5 %), step = 3.03 ps (20 m%) hb: time = 14.02 ns (92.5 %), step = 3.03 ps (20 m%) hb: time = 14.77 ns (97.5 %), step = 3.03 ps (20 m%) Automatically increase tstab for better initial solution. Warning from spectre at time = 30.303 ns during periodic steady state analysis, during Harmonic Balance Steady State Analysis `hb'. WARNING (SPCRTRF-15310): Steady-state has not been detected after 30.303 ns. If the circuit does not converge, set a longer transient stop time manually. ===================================== `hb': time = (30.303 ns -> 30.606 ns) ===================================== Output and IC/nodeset summary: ic 4 hb: time = 30.31 ns (2.76 %), step = 1.112 ps (367 m%) hb: time = 30.33 ns (7.76 %), step = 1.515 ps (500 m%) hb: time = 30.34 ns (12.8 %), step = 1.515 ps (500 m%) hb: time = 30.36 ns (17.8 %), step = 1.515 ps (500 m%) hb: time = 30.37 ns (22.8 %), step = 1.515 ps (500 m%) hb: time = 30.39 ns (27.8 %), step = 1.515 ps (500 m%) hb: time = 30.4 ns (32.8 %), step = 1.515 ps (500 m%) hb: time = 30.42 ns (37.8 %), step = 1.515 ps (500 m%) hb: time = 30.43 ns (42.8 %), step = 1.515 ps (500 m%) hb: time = 30.45 ns (47.8 %), step = 1.515 ps (500 m%) hb: time = 30.46 ns (52.6 %), step = 979.5 fs (323 m%) hb: time = 30.48 ns (57.6 %), step = 1.515 ps (500 m%) hb: time = 30.49 ns (62.6 %), step = 1.515 ps (500 m%) hb: time = 30.51 ns (67.6 %), step = 1.515 ps (500 m%) hb: time = 30.52 ns (72.6 %), step = 1.515 ps (500 m%) hb: time = 30.54 ns (77.6 %), step = 1.515 ps (500 m%) hb: time = 30.55 ns (82.6 %), step = 1.515 ps (500 m%) hb: time = 30.57 ns (87.6 %), step = 1.515 ps (500 m%) hb: time = 30.58 ns (92.6 %), step = 1.515 ps (500 m%) hb: time = 30.6 ns (97.6 %), step = 1.515 ps (500 m%) Notice from spectre during Harmonic Balance Steady State Analysis `hb'. Auto harmonic calculation has chosen 67 harmonics for tone-1. ============================== Harmonic balance hbhomotopy=tone (1-tone) ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=3.19e+02 at node I3.M4:int_g harm=(67 0) ********** iter = 1 ********** Delta Norm=9.88e+02 at node I2.V0:p harm=(0 0) Resd Norm=3.32e+03 at node I3.M3:int_d harm=(0 0) ********** iter = 2 ********** Delta Norm=5.13e+02 at node I3.V2:p harm=(3 0) Resd Norm=3.01e+03 at node I3.M4:int_g harm=(0 0) ********** iter = 3 ********** Delta Norm=2.63e+02 at node I3.V1:p harm=(1 0) Resd Norm=3.43e+03 at node I3.M4:int_g harm=(0 0) ********** iter = 4 ********** Delta Norm=1.92e+02 at node I3.C4.ls1:1 harm=(2 0) Resd Norm=3.39e+03 at node I3.M4:int_g harm=(0 0) ********** iter = 5 ********** Delta Norm=4.76e+02 at node I3.C4.ls1:1 harm=(2 0) Resd Norm=3.43e+03 at node I3.M4:int_g harm=(0 0) ********** iter = 6 ********** Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING (CMI-2682): I0.M3: The bulk-drain junction forward bias voltage (1.76255 V) exceeds `VjdmFwd' = 951.351 mV. The results are now incorrect because the junction current model has been linearized Notice from spectre during Harmonic Balance Steady State Analysis `hb'. I0.M3: The bulk-drain junction returns to normal bias condition Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING (CMI-2682): I0.M4: The bulk-drain junction forward bias voltage (1.03004 V) exceeds `VjdmFwd' = 951.351 mV. The results are now incorrect because the junction current model has been linearized Notice from spectre during Harmonic Balance Steady State Analysis `hb'. I0.M4: The bulk-drain junction returns to normal bias condition Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING (CMI-2682): I0.M3: The bulk-drain junction forward bias voltage (1.03829 V) exceeds `VjdmFwd' = 951.351 mV. The results are now incorrect because the junction current model has been linearized Damping Factor is 0.1 Delta Norm=2.05e+03 at node I0.V2:p harm=(2 0) Resd Norm=3.43e+03 at node I3.M4:int_g harm=(0 0) ********** iter = 7 ********** Delta Norm=4.86e+02 at node I3.C4.ls:1 harm=(2 0) Resd Norm=3.44e+03 at node I3.M4:int_g harm=(0 0) ********** iter = 8 ********** Delta Norm=9.52e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.97e+03 at node I0.M4:int_g harm=(7 0) ********** iter = 9 ********** Delta Norm=8.50e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.54e+03 at node I0.M3:int_g harm=(7 0) ********** iter = 10 ********** Damping Factor is 0.2 Delta Norm=3.41e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.10e+03 at node I0.M3:int_g harm=(7 0) ********** iter = 11 ********** Damping Factor is 0.1 Delta Norm=6.25e+02 at node I0.V1:p harm=(2 0) Resd Norm=8.89e+02 at node I0.M3:int_g harm=(10 0) ********** iter = 12 ********** Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING (CMI-2682): I0.M3: The bulk-drain junction forward bias voltage (951.82 mV) exceeds `VjdmFwd' = 951.351 mV. The results are now incorrect because the junction current model has been linearized Notice from spectre during Harmonic Balance Steady State Analysis `hb'. I0.M3: The bulk-drain junction returns to normal bias condition Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING (CMI-2682): I0.M4: The bulk-drain junction forward bias voltage (951.861 mV) exceeds `VjdmFwd' = 951.351 mV. The results are now incorrect because the junction current model has been linearized Further occurrences of this warning will be suppressed. Notice from spectre during Harmonic Balance Steady State Analysis `hb'. I0.M4: The bulk-drain junction returns to normal bias condition Damping Factor is 0.1 Delta Norm=9.76e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.48e+03 at node I0.M3:int_g harm=(4 0) ********** iter = 13 ********** Delta Norm=3.87e+02 at node I0.V1:p harm=(2 0) Resd Norm=8.05e+02 at node I0.M4:int_g harm=(7 0) ********** iter = 14 ********** Delta Norm=9.75e+02 at node I0.V1:p harm=(2 0) Resd Norm=8.10e+02 at node I0.M4:int_g harm=(11 0) ********** iter = 15 ********** Delta Norm=7.44e+02 at node I0.V1:p harm=(2 0) Resd Norm=6.27e+02 at node I0.M4:int_g harm=(6 0) ********** iter = 16 ********** Damping Factor is 0.1 Delta Norm=2.25e+02 at node I0.V1:p harm=(2 0) Resd Norm=5.31e+02 at node I0.M4:int_g harm=(6 0) ********** iter = 17 ********** Damping Factor is 0.1 Delta Norm=5.07e+02 at node I0.V1:p harm=(2 0) Resd Norm=5.07e+02 at node I0.M3:int_s harm=(0 0) ********** iter = 18 ********** Notice from spectre during Harmonic Balance Steady State Analysis `hb'. I0.M4: The bulk-drain junction returns to normal bias condition Further occurrences of this notice will be suppressed. Damping Factor is 0.1 Delta Norm=2.21e+03 at node I0.V1:p harm=(2 0) Resd Norm=3.65e+03 at node I0.M4:int_s harm=(3 0) ********** iter = 19 ********** Delta Norm=7.50e+02 at node V0:p harm=(4 0) Resd Norm=1.54e+03 at node I0.M3:int_g harm=(4 0) ********** iter = 20 ********** Delta Norm=5.62e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.95e+03 at node I0.M4:int_s harm=(1 0) ********** iter = 21 ********** Damping Factor is 0.5 Delta Norm=3.81e+02 at node I0.C3.ls:1 harm=(1 0) Resd Norm=9.36e+02 at node I0.M4:int_s harm=(2 0) ********** iter = 22 ********** Delta Norm=2.99e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.97e+02 at node I0.M3:int_g harm=(6 0) ********** iter = 23 ********** Damping Factor is 0.1 Delta Norm=4.59e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.59e+02 at node I0.M3:int_g harm=(6 0) ********** iter = 24 ********** Damping Factor is 0.1 Delta Norm=3.48e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.03e+02 at node I0.M3:int_g harm=(6 0) ********** iter = 25 ********** Damping Factor is 0.1 Delta Norm=4.68e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.44e+02 at node I0.M4:int_s harm=(0 0) ********** iter = 26 ********** Damping Factor is 0.1 Delta Norm=4.91e+02 at node I0.V1:p harm=(2 0) Resd Norm=5.42e+02 at node I0.M4:int_s harm=(0 0) ********** iter = 27 ********** Delta Norm=2.44e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.22e+02 at node I0.M4:int_g harm=(2 0) ********** iter = 28 ********** Damping Factor is 0.1 Delta Norm=5.61e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.75e+02 at node I0.M4:int_g harm=(4 0) ********** iter = 29 ********** Damping Factor is 0.1 Delta Norm=1.44e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.37e+02 at node I0.M4:int_g harm=(4 0) ********** iter = 30 ********** Damping Factor is 0.1 Delta Norm=1.78e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.05e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 31 ********** Damping Factor is 0.1 Delta Norm=2.29e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.94e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 32 ********** Damping Factor is 0.1 Delta Norm=3.22e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.13e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 33 ********** Damping Factor is 0.1 Delta Norm=5.24e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.93e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 34 ********** Delta Norm=1.23e+02 at node I0.V2:p harm=(2 0) Resd Norm=3.09e+02 at node I0.M3:int_s harm=(0 0) ********** iter = 35 ********** Damping Factor is 0.1 Delta Norm=2.26e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.07e+02 at node I0.M3:int_s harm=(0 0) ********** iter = 36 ********** Damping Factor is 0.1 Delta Norm=4.67e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.09e+02 at node I0.M3:int_s harm=(0 0) ********** iter = 37 ********** Damping Factor is 0.1 Delta Norm=2.12e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.02e+02 at node I0.M3:int_s harm=(0 0) ********** iter = 38 ********** Damping Factor is 0.1 Delta Norm=2.33e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.02e+02 at node I0.M3:int_s harm=(0 0) ********** iter = 39 ********** Damping Factor is 0.1 Delta Norm=2.53e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.10e+02 at node I0.M3:int_s harm=(0 0) ********** iter = 40 ********** Delta Norm=2.74e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.90e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 41 ********** Damping Factor is 0.1 Delta Norm=5.19e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.06e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 42 ********** Damping Factor is 0.1 Delta Norm=2.47e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.01e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 43 ********** Damping Factor is 0.1 Delta Norm=3.19e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.31e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 44 ********** Damping Factor is 0.1 Delta Norm=4.66e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.51e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 45 ********** Damping Factor is 0.1 Delta Norm=6.65e+02 at node I0.V1:p harm=(2 0) Resd Norm=5.18e+02 at node I0.M4:int_g harm=(5 0) ********** iter = 46 ********** Delta Norm=2.64e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.69e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 47 ********** Damping Factor is 0.1 Delta Norm=6.07e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.75e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 48 ********** Damping Factor is 0.2 Delta Norm=2.23e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.86e+02 at node I0.M4:int_g harm=(4 0) ********** iter = 49 ********** Damping Factor is 0.1 Delta Norm=1.56e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.47e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 50 ********** Damping Factor is 0.1 Delta Norm=2.04e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.26e+02 at node I0.M4:int_g harm=(4 0) ********** iter = 51 ********** Damping Factor is 0.1 Delta Norm=2.70e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.07e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 52 ********** Damping Factor is 0.1 Delta Norm=4.45e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.59e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 53 ********** Delta Norm=2.69e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.18e+02 at node I0.M4:int_g harm=(2 0) ********** iter = 54 ********** Damping Factor is 0.1 Delta Norm=5.90e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.29e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 55 ********** Damping Factor is 0.1 Delta Norm=1.82e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.13e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 56 ********** Damping Factor is 0.1 Delta Norm=2.28e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.18e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 57 ********** Damping Factor is 0.1 Delta Norm=2.91e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.11e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 58 ********** Damping Factor is 0.1 Delta Norm=3.13e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.85e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 59 ********** Damping Factor is 0.1 Delta Norm=7.17e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.97e+02 at node I0.M4:int_s harm=(0 0) ********** iter = 60 ********** Delta Norm=1.24e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.26e+02 at node I0.M3:int_s harm=(0 0) ********** iter = 61 ********** Delta Norm=2.79e+02 at node I0.V2:p harm=(2 0) Resd Norm=2.17e+02 at node I0.M4:int_g harm=(2 0) ********** iter = 62 ********** Damping Factor is 0.1 Delta Norm=1.62e+03 at node I0.V1:p harm=(2 0) Resd Norm=1.58e+03 at node I0.M3:int_g harm=(5 0) ********** iter = 63 ********** Delta Norm=3.35e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.01e+03 at node I0.M3:int_g harm=(7 0) ********** iter = 64 ********** Delta Norm=9.27e+02 at node I0.V1:p harm=(2 0) Resd Norm=9.86e+02 at node I0.M3:int_g harm=(6 0) ********** iter = 65 ********** Delta Norm=8.56e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.56e+03 at node I0.M4:int_g harm=(7 0) ********** iter = 66 ********** Damping Factor is 0.2 Delta Norm=2.97e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.08e+03 at node I0.M4:int_g harm=(7 0) ********** iter = 67 ********** Damping Factor is 0.1 Delta Norm=4.16e+02 at node I0.V1:p harm=(2 0) Resd Norm=7.42e+02 at node I0.M4:int_g harm=(7 0) ********** iter = 68 ********** Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING (CMI-2377): I0.M3: Vgd has exceeded the oxide breakdown voltage of `vbox' = 8.85 V. WARNING (CMI-2377): I0.M4: Vgd has exceeded the oxide breakdown voltage of `vbox' = 8.85 V. Notice from spectre during Harmonic Balance Steady State Analysis `hb'. I0.M4: Device leaves the gate-drain oxide breakdown region. I0.M3: Device leaves the gate-drain oxide breakdown region. Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING (CMI-2377): I0.M4: Vgd has exceeded the oxide breakdown voltage of `vbox' = 8.85 V. WARNING (CMI-2377): I0.M3: Vgd has exceeded the oxide breakdown voltage of `vbox' = 8.85 V. Notice from spectre during Harmonic Balance Steady State Analysis `hb'. I0.M3: Device leaves the gate-drain oxide breakdown region. I0.M4: Device leaves the gate-drain oxide breakdown region. Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING (CMI-2377): I0.M3: Vgd has exceeded the oxide breakdown voltage of `vbox' = 8.85 V. Further occurrences of this warning will be suppressed. Damping Factor is 0.1 Delta Norm=3.70e+03 at node I0.V1:p harm=(2 0) Resd Norm=5.34e+03 at node I0.M3:int_s harm=(2 0) ********** iter = 69 ********** Delta Norm=9.21e+02 at node V0:p harm=(4 0) Resd Norm=3.35e+03 at node I0.M4:int_s harm=(4 0) ********** iter = 70 ********** Delta Norm=5.05e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.64e+03 at node I0.M4:int_d harm=(5 0) ********** iter = 71 ********** Damping Factor is 0.7 Delta Norm=2.86e+02 at node I0.V1:p harm=(4 0) Resd Norm=1.20e+03 at node I0.M3:int_g harm=(8 0) ********** iter = 72 ********** Delta Norm=2.35e+02 at node I0.V1:p harm=(4 0) Resd Norm=1.78e+03 at node I0.M4:int_g harm=(5 0) ********** iter = 73 ********** Damping Factor is 0.1 Delta Norm=1.33e+03 at node I0.V1:p harm=(2 0) Resd Norm=2.17e+03 at node I0.M3:int_g harm=(5 0) ********** iter = 74 ********** Delta Norm=3.51e+02 at node I0.V1:p harm=(2 0) Resd Norm=8.97e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 75 ********** Damping Factor is 0.1 Delta Norm=1.82e+03 at node I0.V1:p harm=(2 0) Resd Norm=2.06e+03 at node I0.M3:int_g harm=(4 0) ********** iter = 76 ********** Delta Norm=4.25e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.41e+03 at node I0.M3:int_g harm=(4 0) ********** iter = 77 ********** Delta Norm=2.65e+02 at node I0.V1:p harm=(2 0) Resd Norm=6.10e+02 at node I0.M3:int_g harm=(6 0) ********** iter = 78 ********** Damping Factor is 0.1 Delta Norm=3.36e+02 at node I0.V1:p harm=(2 0) Resd Norm=5.52e+02 at node I0.M3:int_g harm=(6 0) ********** iter = 79 ********** Damping Factor is 0.1 Delta Norm=3.50e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.92e+02 at node I0.M3:int_g harm=(6 0) ********** iter = 80 ********** Damping Factor is 0.1 Delta Norm=4.79e+02 at node I0.V1:p harm=(2 0) Resd Norm=5.47e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 81 ********** Damping Factor is 0.1 Delta Norm=4.82e+02 at node I0.V1:p harm=(2 0) Resd Norm=5.60e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 82 ********** Delta Norm=2.66e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.58e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 83 ********** Damping Factor is 0.1 Delta Norm=4.73e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.60e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 84 ********** Damping Factor is 0.1 Delta Norm=2.25e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.22e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 85 ********** Damping Factor is 0.1 Delta Norm=3.16e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.95e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 86 ********** Damping Factor is 0.1 Delta Norm=4.48e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.67e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 87 ********** Delta Norm=2.45e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.53e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 88 ********** Damping Factor is 0.1 Delta Norm=5.95e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.18e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 89 ********** Damping Factor is 0.1 Delta Norm=1.84e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.97e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 90 ********** Damping Factor is 0.1 Delta Norm=2.29e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.06e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 91 ********** Damping Factor is 0.1 Delta Norm=3.00e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.30e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 92 ********** Damping Factor is 0.1 Delta Norm=4.46e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.62e+02 at node I0.M4:int_g harm=(5 0) ********** iter = 93 ********** Damping Factor is 0.1 Delta Norm=4.63e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.99e+02 at node I0.M4:int_s harm=(0 0) ********** iter = 94 ********** Delta Norm=2.57e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.59e+02 at node I0.M4:int_g harm=(2 0) ********** iter = 95 ********** Damping Factor is 0.1 Delta Norm=7.24e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.22e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 96 ********** Damping Factor is 0.2 Delta Norm=2.11e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.38e+02 at node I0.M4:int_g harm=(7 0) ********** iter = 97 ********** Damping Factor is 0.1 Delta Norm=1.45e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.17e+02 at node I0.M4:int_g harm=(7 0) ********** iter = 98 ********** Damping Factor is 0.1 Delta Norm=1.68e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.01e+02 at node I0.M4:int_g harm=(7 0) ********** iter = 99 ********** Damping Factor is 0.1 Delta Norm=2.07e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.92e+02 at node I0.M4:int_g harm=(7 0) ********** iter = 100 ********** Damping Factor is 0.1 Delta Norm=2.71e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.67e+02 at node I0.M4:int_g harm=(7 0) ============================== Harmonic balance hbhomotopy=tone (all-tone) ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=9.99e+03 at node net08 harm=(0 1) ********** iter = 1 ********** Delta Norm=5.69e+06 at node I2.V0:p harm=(0 1) Resd Norm=8.61e+03 at node I2.M0:int_s harm=(0 0) ********** iter = 2 ********** Delta Norm=5.57e+02 at node I2.M0:sbnode harm=(0 1) Resd Norm=3.00e+03 at node I2.M0:int_s harm=(0 1) ********** iter = 3 ********** Delta Norm=7.25e+01 at node I2.M0:sbnode harm=(0 1) Resd Norm=1.89e+03 at node I2.M0:int_s harm=(0 1) ********** iter = 4 ********** Delta Norm=1.69e+02 at node I2.V3:p harm=(0 1) Resd Norm=7.57e+02 at node I2.M0:int_s harm=(0 0) ********** iter = 5 ********** Delta Norm=9.36e+01 at node I2.V3:p harm=(0 1) Resd Norm=7.47e+02 at node I2.M0:int_s harm=(0 2) ********** iter = 6 ********** Delta Norm=1.35e+03 at node I0.V1:p harm=(2 0) Resd Norm=1.65e+03 at node I0.M4:int_g harm=(5 0) ********** iter = 7 ********** Delta Norm=1.68e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.78e+02 at node I0.M3:int_s harm=(0 0) ********** iter = 8 ********** Delta Norm=2.95e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.41e+02 at node I0.M4:int_g harm=(4 0) ********** iter = 9 ********** Delta Norm=6.04e+02 at node I0.V2:p harm=(2 0) Resd Norm=3.04e+02 at node I0.M4:int_s harm=(0 0) ********** iter = 10 ********** Delta Norm=2.94e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.85e+02 at node I0.M4:int_g harm=(4 0) ********** iter = 11 ********** Delta Norm=6.81e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.27e+02 at node I0.M3:int_s harm=(0 0) ********** iter = 12 ********** Delta Norm=1.82e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.98e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 13 ********** Damping Factor is 0.4 Delta Norm=3.54e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.13e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 14 ********** Damping Factor is 0.3 Delta Norm=3.10e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.15e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 15 ********** Damping Factor is 0.4 Delta Norm=3.80e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.07e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 16 ********** Damping Factor is 0.3 Delta Norm=2.90e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.06e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 17 ********** Damping Factor is 0.3 Delta Norm=3.14e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.03e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 18 ********** Delta Norm=5.83e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.46e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 19 ********** Delta Norm=2.58e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.33e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 20 ********** Damping Factor is 0.2 Delta Norm=2.60e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.23e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 21 ********** Damping Factor is 0.2 Delta Norm=1.92e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.32e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 22 ********** Damping Factor is 0.1 Delta Norm=1.21e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.24e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 23 ********** Damping Factor is 0.1 Delta Norm=1.45e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.19e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 24 ********** Damping Factor is 0.1 Delta Norm=3.14e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.16e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 25 ********** Damping Factor is 0.2 Delta Norm=1.56e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.12e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 26 ********** Damping Factor is 0.1 Delta Norm=4.04e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.46e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 27 ********** Delta Norm=1.16e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.07e+02 at node I0.M4:int_g harm=(7 0) ********** iter = 28 ********** Damping Factor is 0.1 Delta Norm=2.07e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.21e+02 at node I0.M4:int_g harm=(7 0) ********** iter = 29 ********** Damping Factor is 0.1 Delta Norm=2.45e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.53e+02 at node I0.M4:int_g harm=(7 0) ********** iter = 30 ********** Delta Norm=2.43e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.12e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 31 ********** Damping Factor is 0.1 Delta Norm=7.09e+02 at node I0.V1:p harm=(2 0) Resd Norm=5.15e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 32 ********** Delta Norm=1.49e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.59e+02 at node I0.M4:int_g harm=(5 0) ********** iter = 33 ********** Delta Norm=1.63e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.38e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 34 ********** Damping Factor is 0.1 Delta Norm=1.11e+03 at node I0.V1:p harm=(2 0) Resd Norm=8.44e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 35 ********** Delta Norm=1.36e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.87e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 36 ********** Delta Norm=2.15e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.88e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 37 ********** Damping Factor is 0.1 Delta Norm=3.51e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.83e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 38 ********** Delta Norm=1.05e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.60e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 39 ********** Delta Norm=3.26e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.18e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 40 ********** Damping Factor is 0.1 Delta Norm=2.77e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.93e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 41 ********** Delta Norm=1.22e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.88e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 42 ********** Damping Factor is 0.1 Delta Norm=4.46e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.81e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 43 ********** Delta Norm=7.50e+01 at node I0.V1:p harm=(2 0) Resd Norm=2.95e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 44 ********** Damping Factor is 0.1 Delta Norm=5.11e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.87e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 45 ********** Delta Norm=2.08e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.84e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 46 ********** Delta Norm=4.14e+02 at node I0.V2:p harm=(2 0) Resd Norm=4.10e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 47 ********** Damping Factor is 0.1 Delta Norm=3.82e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.75e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 48 ********** Delta Norm=1.65e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.92e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 49 ********** Damping Factor is 0.2 Delta Norm=2.04e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.16e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 50 ********** Damping Factor is 0.1 Delta Norm=8.37e+02 at node I0.V1:p harm=(2 0) Resd Norm=7.26e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 51 ********** Delta Norm=1.55e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.23e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 52 ********** Delta Norm=1.14e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.16e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 53 ********** Damping Factor is 0.1 Delta Norm=4.47e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.89e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 54 ********** Delta Norm=1.40e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.67e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 55 ********** Damping Factor is 0.1 Delta Norm=1.30e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.75e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 56 ********** Damping Factor is 0.1 Delta Norm=3.50e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.39e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 57 ********** Delta Norm=1.28e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.81e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 58 ********** Damping Factor is 0.1 Delta Norm=1.31e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.88e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 59 ********** Damping Factor is 0.1 Delta Norm=4.41e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.28e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 60 ********** Delta Norm=9.63e+01 at node I0.V1:p harm=(2 0) Resd Norm=1.92e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 61 ********** Damping Factor is 0.1 Delta Norm=1.85e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.03e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 62 ********** Damping Factor is 0.1 Delta Norm=3.76e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.08e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 63 ********** Delta Norm=8.26e+01 at node I0.V1:p harm=(2 0) Resd Norm=2.36e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 64 ********** Damping Factor is 0.1 Delta Norm=1.21e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.39e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 65 ********** Damping Factor is 0.1 Delta Norm=1.43e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.48e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 66 ********** Damping Factor is 0.1 Delta Norm=2.55e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.59e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 67 ********** Damping Factor is 0.1 Delta Norm=1.11e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.43e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 68 ********** Damping Factor is 0.1 Delta Norm=4.15e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.58e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 69 ********** Delta Norm=1.51e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.62e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 70 ********** Damping Factor is 0.1 Delta Norm=2.47e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.77e+02 at node I0.M3:int_g harm=(2 0) ********** iter = 71 ********** Damping Factor is 0.1 Delta Norm=6.59e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.99e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 72 ********** Delta Norm=1.22e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.33e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 73 ********** Delta Norm=2.17e+02 at node I0.V2:p harm=(2 0) Resd Norm=3.81e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 74 ********** Damping Factor is 0.1 Delta Norm=1.52e+03 at node I0.V1:p harm=(2 0) Resd Norm=1.45e+03 at node I0.M3:int_g harm=(5 0) ********** iter = 75 ********** Delta Norm=1.65e+02 at node I0.V1:p harm=(2 0) Resd Norm=6.22e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 76 ********** Delta Norm=2.28e+02 at node I0.V1:p harm=(2 0) Resd Norm=5.23e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 77 ********** Delta Norm=2.20e+02 at node I0.V1:p harm=(2 0) Resd Norm=4.43e+02 at node I0.M3:int_g harm=(4 0) ********** iter = 78 ********** Damping Factor is 0.1 Delta Norm=1.33e+03 at node I0.V1:p harm=(2 0) Resd Norm=1.27e+03 at node I0.M3:int_g harm=(4 0) ********** iter = 79 ********** Delta Norm=1.98e+02 at node I0.V1:p harm=(2 0) Resd Norm=5.31e+02 at node I0.M4:int_g harm=(5 0) ********** iter = 80 ********** Delta Norm=1.53e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.38e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 81 ********** Damping Factor is 0.1 Delta Norm=2.86e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.83e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 82 ********** Delta Norm=1.69e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.43e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 83 ********** Damping Factor is 0.1 Delta Norm=8.51e+02 at node I0.V1:p harm=(2 0) Resd Norm=5.77e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 84 ********** Delta Norm=1.59e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.18e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 85 ********** Delta Norm=9.67e+01 at node I0.V1:p harm=(2 0) Resd Norm=1.76e+02 at node I0.M3:int_g harm=(3 0) ********** iter = 86 ********** Damping Factor is 0.1 Delta Norm=6.35e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.77e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 87 ********** Delta Norm=1.08e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.04e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 88 ********** Delta Norm=3.05e+01 at node I0.V1:p harm=(2 0) Resd Norm=1.63e+02 at node I0.M4:int_s harm=(1 0) ********** iter = 89 ********** Damping Factor is 0.1 Delta Norm=5.22e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.69e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 90 ********** Delta Norm=8.79e+01 at node I0.V1:p harm=(2 0) Resd Norm=1.97e+02 at node I0.M3:int_s harm=(2 0) ********** iter = 91 ********** Delta Norm=2.80e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.48e+02 at node I0.M3:int_g harm=(8 0) ********** iter = 92 ********** Damping Factor is 0.1 Delta Norm=3.87e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.22e+02 at node I0.M4:int_s harm=(2 0) ********** iter = 93 ********** Delta Norm=1.29e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.66e+02 at node I0.M4:int_g harm=(2 0) ********** iter = 94 ********** Damping Factor is 0.3 Delta Norm=1.81e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.85e+02 at node I0.M4:int_g harm=(5 0) ********** iter = 95 ********** Damping Factor is 0.1 Delta Norm=1.04e+03 at node I0.V1:p harm=(2 0) Resd Norm=8.43e+02 at node I0.M3:int_g harm=(7 0) ********** iter = 96 ********** Delta Norm=1.74e+02 at node I0.V1:p harm=(2 0) Resd Norm=3.18e+02 at node I0.M4:int_g harm=(5 0) ********** iter = 97 ********** Delta Norm=1.23e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.80e+02 at node I0.M4:int_s harm=(1 0) ********** iter = 98 ********** Damping Factor is 0.1 Delta Norm=3.38e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.30e+02 at node I0.M3:int_g harm=(5 0) ********** iter = 99 ********** Delta Norm=1.30e+02 at node I0.V1:p harm=(2 0) Resd Norm=1.83e+02 at node I0.M4:int_g harm=(2 0) ********** iter = 100 ********** Damping Factor is 0.1 Delta Norm=4.74e+02 at node I0.V1:p harm=(2 0) Resd Norm=2.76e+02 at node I0.M3:int_g harm=(5 0) Warning: Maximum number of iterations reached. Result may not be correct. Solution is saved anyway. CPU time=134 s Notice from spectre during IC analysis, during periodic steady state analysis, during Harmonic Balance Steady State Analysis `hb'. There are 4 IC nodes defined. Trying `homotopy = gmin' for initial conditions. Notice from spectre during IC analysis, during periodic steady state analysis, during Harmonic Balance Steady State Analysis `hb'. Initial condition computed for node out_p is in error by 30.4441 mV (30.4441 %). Initial condition computed for node out_n is in error by 33.2117 mV. Initial condition computed for node out_n2 is in error by 62.1781 mV. Initial condition computed for node out_p2 is in error by 56.9966 mV (56.9966 %). Decrease `rforce' to reduce error in computed initial conditions. However, setting rforce too small may result in convergence difficulties or in the matrix becoming singular. DC simulation time: CPU = 23.996 ms, elapsed = 24.2522 ms. Stepping source level for improved convergence ==================================== Current source level is: 1.000000e-02 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=1.00e+04 at node net08 harm=(0 1) ********** iter = 1 ********** Delta Norm=2.10e+07 at node V4:p harm=(0 1) Resd Norm=1.00e+04 at node I0.M3:int_d harm=(0 0) ********** iter = 2 ********** Delta Norm=1.47e+08 at node I0.L2:1 harm=(0 0) Resd Norm=7.85e+03 at node I3.M2:int_s harm=(0 0) ********** iter = 3 ********** Delta Norm=1.11e+03 at node I3.L2:1 harm=(0 0) Resd Norm=5.14e+03 at node I3.M3:int_d harm=(0 0) ********** iter = 4 ********** Delta Norm=2.77e+02 at node I3.L2:1 harm=(0 0) Resd Norm=1.41e+03 at node I3.M4:int_s harm=(0 0) ********** iter = 5 ********** Delta Norm=3.34e+01 at node I3.M2:int_d harm=(0 0) Resd Norm=1.26e+02 at node I3.M3:int_s harm=(0 0) ********** iter = 6 ********** Delta Norm=3.07e+00 at node I3.M2:int_d harm=(0 0) Resd Norm=1.06e+00 at node I3.M4:int_s harm=(0 0) ********** iter = 7 ********** Delta Norm=2.59e-02 at node I3.M2:int_d harm=(0 0) Resd Norm=5.86e-04 at node I0.M_ver_n:int_g harm=(0 0) CPU time=3 s ==================================== Current source level is: 5.100000e-01 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING (CMI-2375): I3.M_ver_n: Vgs has exceeded the oxide breakdown voltage of `vbox' = 8.85 V. WARNING (CMI-2375): I3.M_ver_p: Vgs has exceeded the oxide breakdown voltage of `vbox' = 8.85 V. WARNING (CMI-2683): I3.M3: The `bulk-drain' junction reverse bias voltage (-24.7115 V) exceeds `VjdmRev' = -11.9652 V. The results are now incorrect because the junction current model has been linearized WARNING (CMI-2375): I3.M3: Vgs has exceeded the oxide breakdown voltage of `vbox' = 8.85 V. WARNING (CMI-2683): I3.M4: The `bulk-drain' junction reverse bias voltage (-19.9706 V) exceeds `VjdmRev' = -11.9652 V. The results are now incorrect because the junction current model has been linearized WARNING (CMI-2375): I3.M4: Vgs has exceeded the oxide breakdown voltage of `vbox' = 8.85 V. WARNING (CMI-2683): I3.M2: The `bulk-drain' junction reverse bias voltage (-32.1566 V) exceeds `VjdmRev' = -11.9652 V. The results are now incorrect because the junction current model has been linearized WARNING (CMI-2375): I0.M_ver_n: Vgs has exceeded the oxide breakdown voltage of `vbox' = 8.85 V. Further occurrences of this warning will be suppressed. WARNING (CMI-2683): I0.M3: The `bulk-drain' junction reverse bias voltage (-21.2756 V) exceeds `VjdmRev' = -11.9652 V. The results are now incorrect because the junction current model has been linearized WARNING (CMI-2683): I0.M4: The `bulk-drain' junction reverse bias voltage (-26.1372 V) exceeds `VjdmRev' = -11.9652 V. The results are now incorrect because the junction current model has been linearized Further occurrences of this warning will be suppressed. ********** initial residual ********** Resd Norm=1.00e+04 at node I3.M4:int_s harm=(0 0) Warning: Harmonic Balance Source Stepping Failed at Source Level 5.100000e-01 CPU time=0 s ==================================== Current source level is: 1.350000e-01 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=1.00e+04 at node I3.M_ver_n:int_g harm=(0 0) Warning: Harmonic Balance Source Stepping Failed at Source Level 1.350000e-01 CPU time=0 s ==================================== Current source level is: 5.000000e-02 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=1.00e+04 at node I0.M_ver_p:int_g harm=(0 0) Warning: Harmonic Balance Source Stepping Failed at Source Level 5.000000e-02 CPU time=0 s ==================================== Current source level is: 2.000000e-02 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=8.99e+03 at node I0.M3:int_d harm=(0 0) ********** iter = 1 ********** Delta Norm=2.81e+05 at node I0.V2:p harm=(0 0) Resd Norm=9.72e+03 at node I0.M_ver_p:int_g harm=(0 0) ********** iter = 2 ********** Delta Norm=1.56e+04 at node I3.L3:1 harm=(0 0) Resd Norm=7.79e+03 at node I0.M3:int_d harm=(0 0) ********** iter = 3 ********** Delta Norm=5.69e+03 at node I0.L2:1 harm=(0 0) Resd Norm=1.74e+03 at node I0.M4:int_d harm=(0 0) ********** iter = 4 ********** Delta Norm=3.28e+02 at node I0.L3:1 harm=(0 0) Resd Norm=9.93e+01 at node I0.M3:int_d harm=(0 0) ********** iter = 5 ********** Delta Norm=1.19e+01 at node I0.L2:1 harm=(0 0) Resd Norm=4.16e-01 at node I0.M4:int_d harm=(0 0) CPU time=3 s ==================================== Current source level is: 6.000000e-02 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=3.70e+02 at node I2.M0:int_g harm=(0 2) ********** iter = 1 ********** Delta Norm=6.17e+01 at node I2.M0:dbnode harm=(0 2) Resd Norm=6.94e+01 at node I2.M0:int_g harm=(0 1) ********** iter = 2 ********** Delta Norm=2.56e+01 at node I2.M0:dbnode harm=(0 1) Resd Norm=2.55e+01 at node I2.M0:int_g harm=(0 2) ********** iter = 3 ********** Delta Norm=7.57e+00 at node I2.M0:dbnode harm=(0 2) Resd Norm=7.02e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 4 ********** Delta Norm=1.92e+00 at node I2.M0:dbnode harm=(0 1) Resd Norm=2.22e+00 at node I2.M0:int_g harm=(0 2) ********** iter = 5 ********** Delta Norm=7.34e-01 at node I2.M0:dbnode harm=(0 2) Resd Norm=7.08e-01 at node I2.M0:int_g harm=(0 3) CPU time=3 s ==================================== Current source level is: 9.555556e-02 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=3.08e+02 at node I2.M0:int_g harm=(0 2) ********** iter = 1 ********** Delta Norm=4.89e+01 at node I2.M0:dbnode harm=(0 2) Resd Norm=9.07e+01 at node I2.M0:int_g harm=(0 1) ********** iter = 2 ********** Delta Norm=3.10e+01 at node I2.M0:dbnode harm=(0 1) Resd Norm=5.01e+01 at node I2.M0:int_g harm=(0 2) ********** iter = 3 ********** Delta Norm=1.63e+01 at node I2.M0:dbnode harm=(0 2) Resd Norm=2.07e+01 at node I2.M0:int_g harm=(0 3) ********** iter = 4 ********** Delta Norm=4.95e+00 at node I2.M0:dbnode harm=(0 1) Resd Norm=9.06e+00 at node I2.M0:int_g harm=(0 2) ********** iter = 5 ********** Delta Norm=3.79e+00 at node I2.M0:dbnode harm=(0 2) Resd Norm=4.02e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 6 ********** Delta Norm=1.06e+00 at node I2.M0:dbnode harm=(0 1) Resd Norm=2.34e-01 at node I2.M0:int_g harm=(0 3) CPU time=3 s ==================================== Current source level is: 1.433333e-01 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=2.98e+02 at node I2.M0:int_g harm=(0 2) ********** iter = 1 ********** Delta Norm=3.72e+01 at node I2.M0:int_d harm=(0 0) Resd Norm=1.37e+02 at node I2.M0:int_s harm=(0 1) ********** iter = 2 ********** Delta Norm=2.91e+01 at node I2.M0:dbnode harm=(0 1) Resd Norm=9.04e+01 at node I2.M0:int_g harm=(0 2) ********** iter = 3 ********** Delta Norm=3.13e+01 at node I2.M0:dbnode harm=(0 2) Resd Norm=4.75e+01 at node I2.M0:int_s harm=(0 1) ********** iter = 4 ********** Delta Norm=7.28e+00 at node I2.M0:dbnode harm=(0 1) Resd Norm=2.27e+01 at node I2.M0:int_g harm=(0 2) ********** iter = 5 ********** Delta Norm=1.39e+01 at node I2.M0:dbnode harm=(0 2) Resd Norm=8.87e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 6 ********** Delta Norm=2.55e+00 at node I2.M0:dbnode harm=(0 3) Resd Norm=1.65e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 7 ********** Delta Norm=4.10e-01 at node I2.M0:dbnode harm=(0 3) Resd Norm=1.56e-01 at node I2.M0:int_g harm=(0 0) CPU time=4 s ==================================== Current source level is: 1.727350e-01 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=1.39e+02 at node I2.M0:int_g harm=(0 2) ********** iter = 1 ********** Delta Norm=1.81e+01 at node I2.M0:int_d harm=(0 0) Resd Norm=9.04e+01 at node I2.M0:int_s harm=(0 1) ********** iter = 2 ********** Delta Norm=3.94e+01 at node I2.M0:dbnode harm=(0 1) Resd Norm=1.89e+01 at node I2.M0:int_g harm=(0 5) ********** iter = 3 ********** Delta Norm=2.60e+00 at node I2.M0:dbnode harm=(0 3) Resd Norm=1.09e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 4 ********** Delta Norm=1.58e+00 at node I2.M0:dbnode harm=(0 2) Resd Norm=5.09e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 5 ********** Delta Norm=1.19e+00 at node I2.M0:dbnode harm=(0 3) Resd Norm=4.19e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 6 ********** Delta Norm=1.63e+00 at node I2.M0:dbnode harm=(0 2) Resd Norm=8.59e-01 at node I2.M0:int_g harm=(0 2) CPU time=3 s ==================================== Current source level is: 1.941181e-01 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=5.59e+01 at node I2.M0:int_g harm=(0 2) ********** iter = 1 ********** Delta Norm=9.16e+00 at node I2.M0:int_b harm=(0 3) Resd Norm=4.42e+01 at node I2.M0:int_s harm=(0 1) ********** iter = 2 ********** Delta Norm=1.74e+01 at node I2.M0:dbnode harm=(0 1) Resd Norm=9.70e+00 at node I2.M0:int_g harm=(0 5) ********** iter = 3 ********** Delta Norm=1.22e+00 at node I2.M0:int_b harm=(0 1) Resd Norm=5.43e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 4 ********** Delta Norm=5.07e-01 at node I2.M0:int_b harm=(0 2) Resd Norm=3.34e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 5 ********** Delta Norm=6.30e-01 at node I2.M0:dbnode harm=(0 3) Resd Norm=2.48e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 6 ********** Delta Norm=1.04e+00 at node I2.M0:dbnode harm=(0 2) Resd Norm=7.46e-01 at node I2.M0:int_g harm=(0 3) CPU time=3 s ==================================== Current source level is: 2.911772e-01 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=2.39e+02 at node I2.M0:int_g harm=(0 2) ********** iter = 1 ********** Delta Norm=3.15e+01 at node I2.V3:p harm=(0 0) Resd Norm=2.06e+02 at node I2.M0:int_s harm=(0 1) ********** iter = 2 ********** Delta Norm=7.26e+01 at node I2.M0:int_b harm=(0 3) Resd Norm=9.09e+01 at node I2.M0:int_s harm=(0 4) ********** iter = 3 ********** Delta Norm=1.02e+01 at node I2.M0:int_b harm=(0 1) Resd Norm=6.46e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 4 ********** Delta Norm=4.67e+00 at node I2.M0:dbnode harm=(0 5) Resd Norm=5.69e+01 at node I2.M0:int_s harm=(0 4) ********** iter = 5 ********** Delta Norm=1.52e+01 at node I2.M0:sbnode harm=(0 4) Resd Norm=3.77e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 6 ********** Delta Norm=5.34e+00 at node I2.M0:dbnode harm=(0 4) Resd Norm=1.80e+01 at node I2.M0:int_g harm=(0 3) ********** iter = 7 ********** Delta Norm=2.73e+00 at node I2.M0:dbnode harm=(0 2) Resd Norm=2.80e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 8 ********** Delta Norm=3.95e-01 at node I2.M0:dbnode harm=(0 2) Resd Norm=5.89e-01 at node I2.M0:int_g harm=(0 3) CPU time=5 s ==================================== Current source level is: 3.429420e-01 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=1.06e+02 at node I2.M0:int_s harm=(0 2) ********** iter = 1 ********** Delta Norm=1.89e+01 at node I2.V3:p harm=(0 0) Resd Norm=1.12e+02 at node I2.M0:int_s harm=(0 2) ********** iter = 2 ********** Delta Norm=2.29e+01 at node I2.M0:int_b harm=(0 2) Resd Norm=5.03e+01 at node I2.M0:int_s harm=(0 4) ********** iter = 3 ********** Delta Norm=5.71e+00 at node I2.V3:p harm=(0 0) Resd Norm=4.25e+01 at node I2.M0:int_s harm=(0 3) ********** iter = 4 ********** Delta Norm=6.32e+00 at node I2.M0:dbnode harm=(0 3) Resd Norm=2.72e+01 at node I2.M0:int_s harm=(0 3) ********** iter = 5 ********** Delta Norm=6.18e+00 at node I2.M0:dbnode harm=(0 3) Resd Norm=1.80e+01 at node I2.M0:int_s harm=(0 3) ********** iter = 6 ********** Delta Norm=7.52e+00 at node I2.M0:dbnode harm=(0 3) Resd Norm=9.91e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 7 ********** Delta Norm=1.29e+00 at node I2.M0:int_b harm=(0 2) Resd Norm=4.03e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 8 ********** Delta Norm=1.94e-01 at node I2.M0:sbnode harm=(0 3) Resd Norm=2.83e-01 at node I2.M0:int_g harm=(0 4) CPU time=6 s ==================================== Current source level is: 3.705499e-01 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=2.53e+01 at node I2.M0:int_s harm=(0 1) ********** iter = 1 ********** Delta Norm=4.14e+00 at node I2.V3:p harm=(0 0) Resd Norm=2.44e+01 at node I2.M0:int_s harm=(0 2) ********** iter = 2 ********** Delta Norm=1.23e+00 at node I2.M0:dbnode harm=(0 2) Resd Norm=1.60e+01 at node I2.M0:int_s harm=(0 1) ********** iter = 3 ********** Delta Norm=2.76e+00 at node I2.M0:dbnode harm=(0 2) Resd Norm=1.05e+01 at node I2.M0:int_s harm=(0 1) ********** iter = 4 ********** Delta Norm=3.41e+00 at node I2.M0:dbnode harm=(0 2) Resd Norm=5.75e+00 at node I2.M0:int_s harm=(0 2) ********** iter = 5 ********** Delta Norm=9.08e-01 at node I2.M0:dbnode harm=(0 2) Resd Norm=3.85e+00 at node I2.M0:int_s harm=(0 1) ********** iter = 6 ********** Delta Norm=1.27e+00 at node I2.M0:sbnode harm=(0 3) Resd Norm=2.40e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 7 ********** Delta Norm=3.91e-01 at node I2.M0:dbnode harm=(0 3) Resd Norm=6.99e-01 at node I2.M0:int_g harm=(0 3) CPU time=5 s ==================================== Current source level is: 5.558248e-01 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=2.54e+02 at node I2.M0:int_g harm=(0 4) ********** iter = 1 ********** Delta Norm=2.70e+01 at node I2.V3:p harm=(0 0) Resd Norm=1.96e+02 at node I2.M0:int_g harm=(0 4) ********** iter = 2 ********** Delta Norm=2.64e+01 at node I2.M0:sbnode harm=(0 5) Resd Norm=1.86e+02 at node I2.M0:int_g harm=(0 4) ********** iter = 3 ********** Delta Norm=1.72e+01 at node I2.M0:sbnode harm=(0 5) Resd Norm=1.59e+02 at node I2.M0:int_g harm=(0 4) ********** iter = 4 ********** Delta Norm=1.66e+01 at node I2.M0:dbnode harm=(0 4) Resd Norm=1.21e+02 at node I2.M0:int_g harm=(0 4) ********** iter = 5 ********** Delta Norm=9.68e+00 at node I2.M0:dbnode harm=(0 4) Resd Norm=8.48e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 6 ********** Delta Norm=7.41e+00 at node I2.M0:dbnode harm=(0 2) Resd Norm=4.51e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 7 ********** Delta Norm=4.14e+00 at node I2.M0:dbnode harm=(0 3) Resd Norm=1.41e+01 at node I2.M0:int_g harm=(0 3) ********** iter = 8 ********** Delta Norm=3.14e-01 at node I2.V3:p harm=(0 0) Resd Norm=1.32e+01 at node I2.M0:int_g harm=(0 3) ********** iter = 9 ********** Delta Norm=3.82e-01 at node I2.M0:dbnode harm=(0 3) Resd Norm=1.10e+01 at node I2.M0:int_g harm=(0 3) ********** iter = 10 ********** Delta Norm=7.74e-01 at node I2.M0:sbnode harm=(0 3) Resd Norm=2.68e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 11 ********** Delta Norm=1.94e-01 at node I2.M0:dbnode harm=(0 3) Resd Norm=2.30e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 12 ********** Delta Norm=2.04e-01 at node I2.M0:dbnode harm=(0 2) Resd Norm=1.76e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 13 ********** Delta Norm=1.44e-01 at node I2.M0:sbnode harm=(0 4) Resd Norm=6.59e-01 at node I2.M0:int_g harm=(0 3) CPU time=10 s ==================================== Current source level is: 6.338353e-01 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=6.50e+01 at node I2.M0:int_s harm=(0 5) ********** iter = 1 ********** Delta Norm=7.33e+00 at node I2.V3:p harm=(0 0) Resd Norm=5.42e+01 at node I2.M0:int_s harm=(0 5) ********** iter = 2 ********** Delta Norm=6.89e+00 at node I2.V3:p harm=(0 0) Resd Norm=4.14e+01 at node I2.M0:int_s harm=(0 5) ********** iter = 3 ********** Delta Norm=6.03e+00 at node I2.M0:sbnode harm=(0 5) Resd Norm=2.73e+01 at node I2.M0:int_g harm=(0 5) ********** iter = 4 ********** Delta Norm=5.69e+00 at node I2.M0:sbnode harm=(0 4) Resd Norm=2.35e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 5 ********** Delta Norm=4.04e+00 at node I2.M0:dbnode harm=(0 4) Resd Norm=2.06e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 6 ********** Delta Norm=3.25e+00 at node I2.M0:sbnode harm=(0 5) Resd Norm=1.32e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 7 ********** Delta Norm=1.34e+00 at node I2.M0:sbnode harm=(0 3) Resd Norm=5.50e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 8 ********** Delta Norm=1.47e-01 at node I2.M0:dbnode harm=(0 3) Resd Norm=4.75e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 9 ********** Delta Norm=1.72e-01 at node I2.M0:dbnode harm=(0 3) Resd Norm=3.44e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 10 ********** Delta Norm=1.93e-01 at node I2.M0:sbnode harm=(0 4) Resd Norm=1.13e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 11 ********** Delta Norm=4.59e-02 at node I2.M0:dbnode harm=(0 4) Resd Norm=9.67e-01 at node I2.M0:int_g harm=(0 4) CPU time=8 s ==================================== Current source level is: 6.666819e-01 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=8.50e+00 at node I2.M0:int_g harm=(0 1) ********** iter = 1 ********** Delta Norm=1.19e+00 at node I2.V3:p harm=(0 0) Resd Norm=5.79e+00 at node I2.M0:int_g harm=(0 3) ********** iter = 2 ********** Delta Norm=1.00e-01 at node I2.M0:sbnode harm=(0 3) Resd Norm=4.91e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 3 ********** Delta Norm=4.46e-01 at node I2.M0:dbnode harm=(0 4) Resd Norm=4.25e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 4 ********** Delta Norm=5.96e-01 at node I2.M0:dbnode harm=(0 4) Resd Norm=3.53e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 5 ********** Delta Norm=4.39e-01 at node I2.M0:dbnode harm=(0 4) Resd Norm=2.94e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 6 ********** Delta Norm=4.83e-01 at node I2.M0:dbnode harm=(0 4) Resd Norm=2.15e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 7 ********** Delta Norm=1.38e-01 at node I2.M0:dbnode harm=(0 2) Resd Norm=5.63e-01 at node I2.M0:int_g harm=(0 4) CPU time=5 s ==================================== Current source level is: 1.000000e+00 ==================================== ============================== Harmonic balance ============================== Important HB parameters: RelTol=1.00e-04 abstol(I)=1.00e-12 A abstol(V)=1.00e-06 V residualtol=1.00e+00 lteratio=3.50e+00 steadyratio=1.00e+00 maxperiods=100 ********** initial residual ********** Resd Norm=1.58e+02 at node I2.M0:int_g harm=(0 4) ********** iter = 1 ********** Delta Norm=1.08e+01 at node I2.M0:sbnode harm=(0 1) Resd Norm=1.52e+02 at node I2.M0:int_g harm=(0 4) ********** iter = 2 ********** Delta Norm=2.20e+00 at node I2.M0:sbnode harm=(0 2) Resd Norm=1.54e+02 at node I2.M0:int_g harm=(0 4) ********** iter = 3 ********** Delta Norm=5.30e+00 at node I2.M0:dbnode harm=(0 4) Resd Norm=1.42e+02 at node I2.M0:int_g harm=(0 4) ********** iter = 4 ********** Delta Norm=7.66e+00 at node I2.M0:dbnode harm=(0 4) Resd Norm=1.19e+02 at node I2.M0:int_g harm=(0 4) ********** iter = 5 ********** Delta Norm=6.80e+00 at node I2.M0:sbnode harm=(0 4) Resd Norm=9.69e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 6 ********** Delta Norm=7.38e+00 at node I2.M0:sbnode harm=(0 4) Resd Norm=2.20e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 7 ********** Delta Norm=4.07e-01 at node I2.M0:dbnode harm=(0 3) Resd Norm=2.10e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 8 ********** Delta Norm=7.66e-01 at node I2.M0:dbnode harm=(0 3) Resd Norm=1.90e+01 at node I2.M0:int_g harm=(0 4) ********** iter = 9 ********** Delta Norm=1.40e+00 at node I2.M0:dbnode harm=(0 2) Resd Norm=6.93e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 10 ********** Delta Norm=2.08e-01 at node I2.M0:dbnode harm=(0 3) Resd Norm=5.95e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 11 ********** Delta Norm=1.62e-01 at node I2.M0:dbnode harm=(0 5) Resd Norm=4.88e+00 at node I2.M0:int_g harm=(0 4) ********** iter = 12 ********** Delta Norm=1.98e-01 at node I2.M0:dbnode harm=(0 2) Resd Norm=9.98e-01 at node I2.M0:int_g harm=(0 4) CPU time=10 s Opening the PSF file ../psf/hb.fd.qpss_hb ... Opening the PSF file ../psf/hb.fi.qpss_hb ... Total time required for hb analysis `hb': CPU = 220.791 s (3m 40.8s), elapsed = 221.103 s (3m 41.1s). Time accumulated: CPU = 221.123 s (3m 41.1s), elapsed = 221.849 s (3m 41.8s). Peak resident memory used = 193 Mbytes. Notice from spectre. 19 notices suppressed. 69 warnings suppressed. modelParameter: writing model parameter values to rawfile. Opening the PSF file ../psf/modelParameter.info ... element: writing instance parameter values to rawfile. Opening the PSF file ../psf/element.info ... outputParameter: writing output parameter values to rawfile. Opening the PSF file ../psf/outputParameter.info ... designParamVals: writing netlist parameters to rawfile. Opening the PSFASCII file ../psf/designParamVals.info ... primitives: writing primitives to rawfile. Opening the PSFASCII file ../psf/primitives.info.primitives ... subckts: writing subcircuits to rawfile. Opening the PSFASCII file ../psf/subckts.info.subckts ...