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: 28020 Memory available: 16.2295 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 Socket: Processors [Frequency] 0: 0 [1998.0], 2 [1998.0], 4 [1998.0], 6 [1998.0] 1: 1 [2499.0], 3 [1998.0], 5 [1998.0], 7 [1998.0] System load averages (1min, 5min, 15min) : 2.8 %, 7.0 %, 5.1 % Simulating `input.scs' on micron.eng.tau.ac.il at 1:26:56 PM, Mon Feb 25, 2019 (process id: 28020). Current working directory: /data.cc/data/a/home/cc/students/enginer/yafimv/simulation/ex5_mixerr_3_33_interfer2/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_13383_7 -format psfxl -raw ../psf \ +lqtimeout 900 -maxw 5 -maxn 5 spectre pid = 28020 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_mixerr_3_33_interfer2/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 = 206.968 ms, elapsed = 376.835 ms. Time accumulated: CPU = 241.962 ms, elapsed = 376.845 ms. Peak resident memory used = 45.5 Mbytes. The CPU load for active processors is : Spectre 0 (59.0 %) 1 (30.6 %) 3 (2.8 %) 4 (21.1 %) 5 (2.6 %) 6 (8.1 %) 7 (10.5 %) 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 = 78.988 ms, elapsed = 80.6909 ms. Time accumulated: CPU = 320.95 ms, elapsed = 457.818 ms. Peak resident memory used = 54 Mbytes. Time for EDB Visiting: CPU = 3 ms, elapsed = 3.02386 ms. Time accumulated: CPU = 323.95 ms, elapsed = 461.189 ms. Peak resident memory used = 54.8 Mbytes. Notice from spectre during topology check. No DC path from node `I20.M7:int_g' to ground, Gmin installed to provide path. No DC path from node `I20.M5:int_g' to ground, Gmin installed to provide path. No DC path from node `RF' to ground, Gmin installed to provide path. No DC path from node `M0:int_g' to ground, Gmin installed to provide path. 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 56 bsim4 14 capacitor 85 diode 4 inductor 14 resistor 35 vsource 8 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 = 5.84388 ms. Time accumulated: CPU = 328.949 ms, elapsed = 467.271 ms. Peak resident memory used = 56.3 Mbytes. ~~~~~~~~~~~~~~~~~~~~~~ Pre-Simulation Summary ~~~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~~~~ Entering remote command mode using MPSC service (spectre, ipi, v0.0, spectre0_13383_7, ). Warning from spectre. WARNING (SPECTRE-16707): Only tran supports psfxl format, result of other analyses will be in psfbin format. Warning from spectre. WARNING (SPCRTRF-15267): The number of sources 0 is less than the number of funds 1 set in analysis.Please make sure the analysis is set up correctly. Fundamental 0 in fundfreqs: period = 303.03 ps, freq = 3.3 GHz, harms = 5, oversample = 1. Fundamental 1 in fundfreqs: period = 151.515 ps, freq = 6.6 GHz, harms = 5, oversample = 1. **************************************************************** Harmonic Balance Steady State Analysis `hb': largefund = 3.3 GHz **************************************************************** Use semi-autonomous solver Warning: Commensurate tone frequencies are detected. Although simulation result won't be affected, you might want to use incommensurate frequencies for convenience Trying `homotopy = gmin'. Notice from spectre during DC analysis, during periodic steady state analysis, during Harmonic Balance Steady State Analysis `hb'. GminDC = 1 pS is large enough to noticeably affect the DC solution. dV(net026) = -54.9449 mV Use the `gmin_check' option to eliminate or expand this report. Bad pivoting is found during DC analysis. Option dc_pivot_check=yes is recommended for possible improvement of convergence. DC simulation time: CPU = 27.996 ms, elapsed = 27.565 ms. Output and IC/nodeset summary: ic 1 Using linear IC Linear IC: estimated frequency is 2.76904e+09 Hz ================================ `hb': time = (0 s -> 15.1515 ns) ================================ Output and IC/nodeset summary: ic 1 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 = traponly lteratio = 3.5 relref = sigglobal cmin = 0 F gmin = 1 pS hb: time = 379.5 ps (2.5 %), step = 3.03 ps (20 m%) hb: time = 1.137 ns (7.5 %), step = 3.03 ps (20 m%) hb: time = 1.895 ns (12.5 %), step = 3.03 ps (20 m%) hb: time = 2.652 ns (17.5 %), step = 3.03 ps (20 m%) hb: time = 3.41 ns (22.5 %), step = 3.03 ps (20 m%) hb: time = 4.167 ns (27.5 %), step = 3.03 ps (20 m%) hb: time = 4.925 ns (32.5 %), step = 3.03 ps (20 m%) hb: time = 5.683 ns (37.5 %), step = 3.03 ps (20 m%) hb: time = 6.44 ns (42.5 %), step = 3.03 ps (20 m%) hb: time = 7.198 ns (47.5 %), step = 3.03 ps (20 m%) hb: time = 7.955 ns (52.5 %), step = 3.03 ps (20 m%) hb: time = 8.713 ns (57.5 %), step = 3.03 ps (20 m%) 99% of the nodes have reached steady-state after 9.09166 ns. hb: time = 9.47 ns (62.5 %), step = 1.212 ps (8 m%) hb: time = 10.23 ns (67.5 %), step = 1.212 ps (8 m%) The Estimated oscillating frequency from Tstab Tran is = 3.02965 GHz . ======================================= `hb': time = (10.3038 ns -> 10.6339 ns) ======================================= Output and IC/nodeset summary: ic 1 hb: time = 10.31 ns (2.99 %), step = 1.65 ps (500 m%) hb: time = 10.33 ns (7.99 %), step = 1.65 ps (500 m%) hb: time = 10.35 ns (13 %), step = 1.65 ps (500 m%) hb: time = 10.36 ns (18 %), step = 1.65 ps (500 m%) hb: time = 10.38 ns (23 %), step = 1.65 ps (500 m%) hb: time = 10.4 ns (28 %), step = 1.65 ps (500 m%) hb: time = 10.41 ns (33 %), step = 1.65 ps (500 m%) hb: time = 10.43 ns (38 %), step = 1.65 ps (500 m%) hb: time = 10.45 ns (43 %), step = 1.65 ps (500 m%) hb: time = 10.46 ns (48 %), step = 1.65 ps (500 m%) hb: time = 10.48 ns (53 %), step = 1.65 ps (500 m%) hb: time = 10.5 ns (58 %), step = 1.65 ps (500 m%) hb: time = 10.51 ns (63 %), step = 1.65 ps (500 m%) hb: time = 10.53 ns (68 %), step = 1.65 ps (500 m%) hb: time = 10.54 ns (73 %), step = 1.65 ps (500 m%) hb: time = 10.56 ns (78 %), step = 1.65 ps (500 m%) hb: time = 10.58 ns (83 %), step = 1.65 ps (500 m%) hb: time = 10.59 ns (88 %), step = 1.65 ps (500 m%) hb: time = 10.61 ns (93 %), step = 1.65 ps (500 m%) hb: time = 10.63 ns (98 %), step = 1.65 ps (500 m%) Notice from spectre during Harmonic Balance Steady State Analysis `hb'. Auto harmonic calculation has chosen 10 harmonics for tone-1. Warning: Commensurate tone frequencies are detected. Although simulation result won't be affected, you might want to use incommensurate frequencies for convenience Pin node is 142, amplitude is 0.193425 Pinning node: 142, harm: 1, name: M4:int_d, value: (0.139101, 0.134403) ============================== 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=9.14e+02 at node I19.M3:int_g harm=(10 0) ********** iter = 1 ********** Delta Norm=3.67e+02 at node I20.V3:p harm=(0 0) Resd Norm=1.43e+03 at node M0:int_d harm=(2 0) Frequency= 3.0296e+09 Hz, delta f= 0.00e+00 ********** iter = 2 ********** Delta Norm=1.37e+01 at node I20.V0:p harm=(2 0) Resd Norm=1.42e+03 at node M0:int_d harm=(2 0) Frequency= 3.0304e+09 Hz, delta f= 7.58e+05 ********** iter = 3 ********** Delta Norm=2.10e+02 at node M0:int_s harm=(2 0) Resd Norm=3.88e+02 at node I20.M0:int_d harm=(0 0) Frequency= 3.0451e+09 Hz, delta f= 1.47e+07 ********** iter = 4 ********** Delta Norm=5.76e+01 at node I20.V0:p harm=(2 0) Resd Norm=3.78e+02 at node I20.M0:int_d harm=(0 0) Frequency= 3.0438e+09 Hz, delta f= -1.30e+06 ********** iter = 5 ********** Delta Norm=7.88e+01 at node V2:p harm=(2 0) Resd Norm=3.12e+02 at node I20.M0:int_d harm=(0 0) Frequency= 3.0398e+09 Hz, delta f= -3.94e+06 ********** iter = 6 ********** Delta Norm=1.70e+02 at node V2:p harm=(2 0) Resd Norm=2.27e+02 at node I20.M0:int_d harm=(2 0) Frequency= 3.0341e+09 Hz, delta f= -5.77e+06 ********** iter = 7 ********** Damping Factor is 0.2 Delta Norm=8.76e+01 at node V2:p harm=(4 0) Resd Norm=2.00e+02 at node I20.M0:int_d harm=(2 0) Frequency= 3.0335e+09 Hz, delta f= -5.42e+05 ********** iter = 8 ********** Damping Factor is 0.1 Delta Norm=7.27e+01 at node V2:p harm=(4 0) Resd Norm=1.92e+02 at node I20.M0:int_d harm=(2 0) Frequency= 3.0328e+09 Hz, delta f= -7.41e+05 ********** iter = 9 ********** Damping Factor is 0.1 Delta Norm=1.07e+02 at node V2:p harm=(4 0) Resd Norm=1.94e+02 at node I20.M0:int_d harm=(2 0) Frequency= 3.0344e+09 Hz, delta f= 1.63e+06 ********** iter = 10 ********** Delta Norm=2.74e+01 at node I19.V1:p harm=(8 0) Resd Norm=1.03e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0362e+09 Hz, delta f= 1.80e+06 ********** iter = 11 ********** Damping Factor is 0.1 Delta Norm=7.77e+01 at node V2:p harm=(4 0) Resd Norm=1.04e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0354e+09 Hz, delta f= -8.15e+05 ********** iter = 12 ********** Damping Factor is 0.1 Delta Norm=1.24e+02 at node V2:p harm=(4 0) Resd Norm=1.21e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0369e+09 Hz, delta f= 1.48e+06 ********** iter = 13 ********** Damping Factor is 0.2 Delta Norm=4.89e+01 at node V2:p harm=(4 0) Resd Norm=1.17e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0362e+09 Hz, delta f= -6.54e+05 ********** iter = 14 ********** Delta Norm=1.13e+01 at node I19.V1:p harm=(8 0) Resd Norm=1.45e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0362e+09 Hz, delta f= 7.17e+03 ********** iter = 15 ********** Delta Norm=1.24e+01 at node I19.V1:p harm=(8 0) Resd Norm=1.12e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0368e+09 Hz, delta f= 5.25e+05 ********** iter = 16 ********** Damping Factor is 0.1 Delta Norm=6.90e+01 at node V2:p harm=(4 0) Resd Norm=1.11e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0361e+09 Hz, delta f= -6.77e+05 ********** iter = 17 ********** Damping Factor is 0.1 Delta Norm=2.25e+02 at node V2:p harm=(4 0) Resd Norm=2.23e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0385e+09 Hz, delta f= 2.44e+06 ********** iter = 18 ********** Delta Norm=4.46e+01 at node I19.V1:p harm=(8 0) Resd Norm=1.67e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0376e+09 Hz, delta f= -9.40e+05 ********** iter = 19 ********** Damping Factor is 0.2 Delta Norm=7.07e+01 at node V2:p harm=(4 0) Resd Norm=1.43e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0371e+09 Hz, delta f= -4.80e+05 ********** iter = 20 ********** Damping Factor is 0.1 Delta Norm=7.39e+01 at node V2:p harm=(4 0) Resd Norm=1.41e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0364e+09 Hz, delta f= -7.39e+05 ********** iter = 21 ********** Damping Factor is 0.1 Delta Norm=2.93e+02 at node V2:p harm=(4 0) Resd Norm=3.78e+02 at node I20.M0:int_g harm=(4 0) Frequency= 3.0399e+09 Hz, delta f= 3.53e+06 ********** iter = 22 ********** Delta Norm=2.44e+02 at node V2:p harm=(4 0) Resd Norm=3.28e+02 at node I19.M3:int_g harm=(10 0) Frequency= 3.0372e+09 Hz, delta f= -2.69e+06 ********** iter = 23 ********** Delta Norm=8.88e+01 at node V2:p harm=(4 0) Resd Norm=6.57e+01 at node I20.M0:int_g harm=(8 0) Frequency= 3.0372e+09 Hz, delta f= 1.11e+04 ********** iter = 24 ********** Damping Factor is 0.1 Delta Norm=4.37e+01 at node I19.V1:p harm=(8 0) Resd Norm=6.54e+01 at node I20.M0:int_g harm=(8 0) Frequency= 3.0369e+09 Hz, delta f= -3.62e+05 ********** iter = 25 ********** Damping Factor is 0.1 Delta Norm=8.28e+01 at node V2:p harm=(4 0) Resd Norm=8.26e+01 at node I20.M0:int_g harm=(8 0) Frequency= 3.0361e+09 Hz, delta f= -7.83e+05 ********** iter = 26 ********** Damping Factor is 0.1 Delta Norm=2.30e+02 at node V2:p harm=(4 0) Resd Norm=2.23e+02 at node I20.M0:int_g harm=(4 0) Frequency= 3.0386e+09 Hz, delta f= 2.56e+06 ********** iter = 27 ********** Delta Norm=8.42e+01 at node I19.V1:p harm=(8 0) Resd Norm=1.16e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0364e+09 Hz, delta f= -2.27e+06 ********** iter = 28 ********** Damping Factor is 0.1 Delta Norm=3.18e+01 at node V2:p harm=(4 0) Resd Norm=1.07e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0362e+09 Hz, delta f= -1.74e+05 ********** iter = 29 ********** Damping Factor is 0.1 Delta Norm=3.93e+01 at node V2:p harm=(4 0) Resd Norm=1.01e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0359e+09 Hz, delta f= -2.97e+05 ********** iter = 30 ********** Damping Factor is 0.1 Delta Norm=7.48e+01 at node V2:p harm=(4 0) Resd Norm=1.10e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0351e+09 Hz, delta f= -7.68e+05 ********** iter = 31 ********** Damping Factor is 0.1 Delta Norm=9.39e+01 at node V2:p harm=(4 0) Resd Norm=1.32e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0364e+09 Hz, delta f= 1.28e+06 ********** iter = 32 ********** Delta Norm=6.16e+01 at node I19.V1:p harm=(8 0) Resd Norm=1.13e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0362e+09 Hz, delta f= -1.69e+05 ********** iter = 33 ********** Damping Factor is 0.1 Delta Norm=2.83e+01 at node V2:p harm=(4 0) Resd Norm=1.04e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0361e+09 Hz, delta f= -1.11e+05 ********** iter = 34 ********** Damping Factor is 0.1 Delta Norm=5.03e+01 at node V2:p harm=(4 0) Resd Norm=9.93e+01 at node I20.M0:int_g harm=(10 0) Frequency= 3.0358e+09 Hz, delta f= -3.49e+05 ********** iter = 35 ********** Damping Factor is 0.1 Delta Norm=1.10e+02 at node V2:p harm=(4 0) Resd Norm=1.19e+02 at node I20.M0:int_g harm=(4 0) Frequency= 3.0347e+09 Hz, delta f= -1.03e+06 ********** iter = 36 ********** Damping Factor is 0.1 Delta Norm=1.06e+02 at node V2:p harm=(4 0) Resd Norm=1.42e+02 at node I20.M0:int_g harm=(4 0) Frequency= 3.0361e+09 Hz, delta f= 1.38e+06 ********** iter = 37 ********** Damping Factor is 0.1 Delta Norm=6.66e+01 at node V2:p harm=(4 0) Resd Norm=1.47e+02 at node I20.M0:int_g harm=(4 0) Frequency= 3.0354e+09 Hz, delta f= -7.71e+05 ********** iter = 38 ********** Delta Norm=4.34e+01 at node I19.V1:p harm=(8 0) Resd Norm=9.98e+01 at node I20.M0:int_g harm=(10 0) Frequency= 3.0353e+09 Hz, delta f= -3.41e+04 ********** iter = 39 ********** Damping Factor is 0.1 Delta Norm=2.81e+02 at node V2:p harm=(4 0) Resd Norm=3.77e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0325e+09 Hz, delta f= -2.85e+06 ********** iter = 40 ********** Delta Norm=2.45e+02 at node V2:p harm=(4 0) Resd Norm=2.79e+02 at node I20.M0:int_d harm=(10 0) Frequency= 3.0344e+09 Hz, delta f= 1.88e+06 ********** iter = 41 ********** Damping Factor is 0.1 Delta Norm=1.04e+02 at node V2:p harm=(4 0) Resd Norm=2.85e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0358e+09 Hz, delta f= 1.49e+06 ********** iter = 42 ********** Damping Factor is 0.2 Delta Norm=9.93e+01 at node V2:p harm=(4 0) Resd Norm=2.66e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0348e+09 Hz, delta f= -1.09e+06 ********** iter = 43 ********** Damping Factor is 0.1 Delta Norm=8.82e+01 at node V2:p harm=(4 0) Resd Norm=2.68e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0361e+09 Hz, delta f= 1.32e+06 ********** iter = 44 ********** Delta Norm=9.73e+01 at node I19.V1:p harm=(8 0) Resd Norm=1.94e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0339e+09 Hz, delta f= -2.17e+06 ********** iter = 45 ********** Damping Factor is 0.1 Delta Norm=2.91e+02 at node V2:p harm=(4 0) Resd Norm=4.00e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0379e+09 Hz, delta f= 4.00e+06 ********** iter = 46 ********** Delta Norm=2.83e+02 at node V2:p harm=(4 0) Resd Norm=3.25e+02 at node I20.M0:int_d harm=(4 0) Frequency= 3.0355e+09 Hz, delta f= -2.40e+06 ********** iter = 47 ********** Delta Norm=9.05e+01 at node V2:p harm=(4 0) Resd Norm=9.97e+01 at node I20.M0:int_g harm=(10 0) Frequency= 3.0367e+09 Hz, delta f= 1.21e+06 ********** iter = 48 ********** Damping Factor is 0.1 Delta Norm=1.27e+02 at node V2:p harm=(4 0) Resd Norm=1.28e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0355e+09 Hz, delta f= -1.24e+06 ********** iter = 49 ********** Damping Factor is 0.1 Delta Norm=1.05e+02 at node V2:p harm=(4 0) Resd Norm=1.49e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0366e+09 Hz, delta f= 1.16e+06 ********** iter = 50 ********** Damping Factor is 0.1 Delta Norm=1.96e+02 at node V2:p harm=(4 0) Resd Norm=2.45e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0389e+09 Hz, delta f= 2.22e+06 ********** iter = 51 ********** Delta Norm=9.55e+01 at node I19.V1:p harm=(8 0) Resd Norm=1.37e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0364e+09 Hz, delta f= -2.48e+06 ********** iter = 52 ********** Damping Factor is 0.2 Delta Norm=6.12e+01 at node V2:p harm=(4 0) Resd Norm=1.22e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0360e+09 Hz, delta f= -3.90e+05 ********** iter = 53 ********** Damping Factor is 0.1 Delta Norm=6.47e+01 at node V2:p harm=(4 0) Resd Norm=1.24e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0353e+09 Hz, delta f= -6.63e+05 ********** iter = 54 ********** Damping Factor is 0.1 Delta Norm=9.46e+01 at node V2:p harm=(4 0) Resd Norm=1.46e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0366e+09 Hz, delta f= 1.26e+06 ********** iter = 55 ********** Damping Factor is 0.1 Delta Norm=3.68e+01 at node V2:p harm=(4 0) Resd Norm=1.37e+02 at node I20.M0:int_g harm=(8 0) Frequency= 3.0362e+09 Hz, delta f= -3.59e+05 ********** iter = 56 ********** Delta Norm=6.67e+01 at node I19.V1:p harm=(8 0) Resd Norm=1.12e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0361e+09 Hz, delta f= -1.49e+05 ********** iter = 57 ********** Damping Factor is 0.1 Delta Norm=3.04e+01 at node V2:p harm=(4 0) Resd Norm=1.05e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0359e+09 Hz, delta f= -1.46e+05 ********** iter = 58 ********** Damping Factor is 0.1 Delta Norm=6.39e+01 at node V2:p harm=(4 0) Resd Norm=1.03e+02 at node I20.M0:int_g harm=(10 0) Frequency= 3.0354e+09 Hz, delta f= -5.06e+05 ********** iter = 59 ********** Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING (CMI-2682): I19.M4: The bulk-drain junction forward bias voltage (979.257 mV) exceeds `VjdmFwd' = 941.396 mV. The results are now incorrect because the junction current model has been linearized Notice from spectre during Harmonic Balance Steady State Analysis `hb'. I19.M4: The bulk-drain junction returns to normal bias condition Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING (CMI-2682): I19.M4: The bulk-drain junction forward bias voltage (979.239 mV) exceeds `VjdmFwd' = 941.396 mV. The results are now incorrect because the junction current model has been linearized Notice from spectre during Harmonic Balance Steady State Analysis `hb'. I19.M4: The bulk-drain junction returns to normal bias condition Damping Factor is 0.1 Delta Norm=4.79e+02 at node V2:p harm=(4 0) Resd Norm=1.14e+03 at node I20.M0:int_g harm=(8 0) Frequency= 3.0303e+09 Hz, delta f= -5.14e+06 ********** iter = 60 ********** Delta Norm=2.68e+02 at node I19.V1:p harm=(8 0) Resd Norm=3.73e+02 at node I20.M0:int_g harm=(6 0) Frequency= 3.0314e+09 Hz, delta f= 1.09e+06 ********** iter = 61 ********** Delta Norm=1.30e+02 at node I19.V1:p harm=(8 0) Resd Norm=9.23e+01 at node I20.M0:int_d harm=(2 0) Frequency= 3.0354e+09 Hz, delta f= 3.98e+06 ********** iter = 62 ********** Delta Norm=1.21e+02 at node I19.V1:p harm=(8 0) Resd Norm=8.35e+01 at node I20.M0:int_d harm=(8 0) Frequency= 3.0345e+09 Hz, delta f= -8.24e+05 ********** iter = 63 ********** Delta Norm=1.91e+01 at node I20.net020 harm=(6 0) Resd Norm=8.89e+00 at node I20.M0:int_g harm=(8 0) Frequency= 3.0344e+09 Hz, delta f= -9.45e+04 ********** iter = 64 ********** Damping Factor is 0.4407 Delta Norm=3.13e+01 at node I19.V1:p harm=(8 0) Resd Norm=6.72e+00 at node I19.M3:int_g harm=(10 0) Frequency= 3.0347e+09 Hz, delta f= 2.65e+05 ********** iter = 65 ********** Damping Factor is 0.334 Delta Norm=2.46e+01 at node I19.V1:p harm=(8 0) Resd Norm=6.11e+00 at node I19.M3:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= 1.32e+05 ********** iter = 66 ********** Damping Factor is 0.182 Delta Norm=1.81e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.87e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= 5.98e+04 ********** iter = 67 ********** Damping Factor is 0.07578 Delta Norm=1.13e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.79e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= 2.07e+04 ********** iter = 68 ********** Damping Factor is 0.06594 Delta Norm=1.04e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.83e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= 1.54e+04 ********** iter = 69 ********** Damping Factor is 0.1894 Delta Norm=1.79e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.84e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= -1.66e+04 ********** iter = 70 ********** Damping Factor is 0.08509 Delta Norm=1.20e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.80e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= 1.80e+04 ********** iter = 71 ********** Damping Factor is 0.08699 Delta Norm=1.17e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.84e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= -1.47e+04 ********** iter = 72 ********** Damping Factor is 0.09907 Delta Norm=1.29e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.80e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= 1.87e+04 ********** iter = 73 ********** Damping Factor is 0.2083 Delta Norm=1.86e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.93e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= -2.27e+04 ********** iter = 74 ********** Damping Factor is 0.1848 Delta Norm=1.78e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.94e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 2.77e+04 ********** iter = 75 ********** Damping Factor is 0.1 Delta Norm=4.86e+01 at node I19.V1:p harm=(8 0) Resd Norm=1.25e+01 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= -6.13e+04 ********** iter = 76 ********** Delta Norm=4.64e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.34e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= -1.17e+05 ********** iter = 77 ********** Damping Factor is 0.1592 Delta Norm=1.24e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.05e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= 5.91e+04 ********** iter = 78 ********** Damping Factor is 0.1013 Delta Norm=9.59e+00 at node I19.V1:p harm=(8 0) Resd Norm=2.88e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= 3.72e+04 ********** iter = 79 ********** Damping Factor is 0.05445 Delta Norm=6.84e+00 at node I19.V1:p harm=(8 0) Resd Norm=2.79e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= 2.14e+04 ********** iter = 80 ********** Damping Factor is 0.02984 Delta Norm=4.90e+00 at node I19.V1:p harm=(8 0) Resd Norm=2.74e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= 1.27e+04 ********** iter = 81 ********** Damping Factor is 0.1 Delta Norm=2.30e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.85e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 5.14e+04 ********** iter = 82 ********** Delta Norm=2.05e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.64e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -4.10e+04 ********** iter = 83 ********** Damping Factor is 0.1 Delta Norm=3.95e+01 at node I19.V1:p harm=(8 0) Resd Norm=7.87e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0350e+09 Hz, delta f= 7.82e+04 ********** iter = 84 ********** Damping Factor is 0.3935 Delta Norm=3.04e+01 at node I19.V1:p harm=(8 0) Resd Norm=7.84e+00 at node I20.M0:int_g harm=(8 0) Frequency= 3.0350e+09 Hz, delta f= 2.23e+04 ********** iter = 85 ********** Damping Factor is 0.1 Delta Norm=2.92e+01 at node I19.V1:p harm=(8 0) Resd Norm=9.60e+00 at node I20.M0:int_g harm=(8 0) Frequency= 3.0350e+09 Hz, delta f= -4.41e+04 ********** iter = 86 ********** Delta Norm=1.00e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.02e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -7.80e+04 ********** iter = 87 ********** Damping Factor is 0.03891 Delta Norm=5.86e+00 at node I19.V1:p harm=(8 0) Resd Norm=2.96e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= 1.63e+04 ********** iter = 88 ********** Damping Factor is 0.1 Delta Norm=2.21e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.58e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0350e+09 Hz, delta f= 5.19e+04 ********** iter = 89 ********** Damping Factor is 0.1 Delta Norm=2.27e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.58e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= -1.86e+04 ********** iter = 90 ********** Damping Factor is 0.1023 Delta Norm=1.16e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.56e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0350e+09 Hz, delta f= 1.84e+04 ********** iter = 91 ********** Damping Factor is 0.1 Delta Norm=4.26e+01 at node I19.V1:p harm=(8 0) Resd Norm=9.64e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= -6.50e+04 ********** iter = 92 ********** Delta Norm=2.82e+00 at node I19.V1:p harm=(8 0) Resd Norm=5.08e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= -7.84e+04 ********** iter = 93 ********** Damping Factor is 0.2674 Delta Norm=1.99e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.35e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= 8.25e+04 ********** iter = 94 ********** Damping Factor is 0.1077 Delta Norm=1.18e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.09e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= 3.48e+04 ********** iter = 95 ********** Damping Factor is 0.1 Delta Norm=2.27e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.07e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0350e+09 Hz, delta f= 4.96e+04 ********** iter = 96 ********** Damping Factor is 0.1147 Delta Norm=1.27e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.97e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0350e+09 Hz, delta f= -8.65e+03 ********** iter = 97 ********** Damping Factor is 0.1 Delta Norm=2.99e+02 at node I19.V1:p harm=(8 0) Resd Norm=3.72e+02 at node I20.M0:int_d harm=(4 0) Frequency= 3.0345e+09 Hz, delta f= -4.56e+05 ********** iter = 98 ********** Delta Norm=7.36e+01 at node I19.V1:p harm=(8 0) Resd Norm=1.38e+02 at node I20.M0:int_d harm=(8 0) Frequency= 3.0361e+09 Hz, delta f= 1.59e+06 ********** iter = 99 ********** Delta Norm=6.84e+01 at node V2:p harm=(4 0) Resd Norm=4.99e+01 at node I20.M0:int_d harm=(10 0) Frequency= 3.0340e+09 Hz, delta f= -2.08e+06 ********** iter = 100 ********** Delta Norm=9.79e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.52e+01 at node I20.M0:int_d harm=(8 0) Frequency= 3.0348e+09 Hz, delta f= 7.73e+05 Pinning node: 142, harm: 1, name: M4:int_d, value: (0.115743, 0.134403) ============================== 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=4.52e+01 at node I20.M0:int_d harm=(8 0) ********** iter = 1 ********** Delta Norm=1.15e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.32e+01 at node I20.M0:int_d harm=(4 0) Frequency= 3.0348e+09 Hz, delta f= -1.36e+04 ********** iter = 2 ********** Delta Norm=4.06e+00 at node I19.V1:p harm=(4 0) Resd Norm=2.87e+01 at node I20.M0:int_d harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= 1.19e+04 ********** iter = 3 ********** Delta Norm=3.22e+00 at node I19.V1:p harm=(4 0) Resd Norm=2.72e+01 at node I20.M0:int_d harm=(10 0) Frequency= 3.0347e+09 Hz, delta f= -9.62e+04 ********** iter = 4 ********** Delta Norm=5.35e+00 at node I19.V1:p harm=(8 0) Resd Norm=1.64e+01 at node I20.M0:int_d harm=(8 0) Frequency= 3.0348e+09 Hz, delta f= 6.89e+04 ********** iter = 5 ********** Delta Norm=2.94e+00 at node V2:p harm=(4 0) Resd Norm=1.41e+01 at node I20.M0:int_d harm=(8 0) Frequency= 3.0350e+09 Hz, delta f= 2.30e+05 ********** iter = 6 ********** Delta Norm=1.21e+01 at node I19.V1:p harm=(8 0) Resd Norm=8.87e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0347e+09 Hz, delta f= -2.94e+05 ********** iter = 7 ********** Delta Norm=6.16e+00 at node I19.V1:p harm=(8 0) Resd Norm=7.35e+00 at node I20.M0:int_d harm=(2 0) Frequency= 3.0345e+09 Hz, delta f= -1.74e+05 ********** iter = 8 ********** Delta Norm=2.21e+01 at node I19.V1:p harm=(8 0) Resd Norm=6.89e+00 at node I20.M0:int_g harm=(8 0) Frequency= 3.0347e+09 Hz, delta f= 1.53e+05 ********** iter = 9 ********** Delta Norm=1.15e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.97e+00 at node I20.M0:int_d harm=(2 0) Frequency= 3.0347e+09 Hz, delta f= 3.78e+04 ********** iter = 10 ********** Damping Factor is 0.8841 Delta Norm=2.96e+01 at node I19.V1:p harm=(8 0) Resd Norm=6.38e+00 at node I20.M0:int_g harm=(6 0) Frequency= 3.0349e+09 Hz, delta f= 2.12e+05 ********** iter = 11 ********** Delta Norm=8.78e-01 at node C3.ls:1 harm=(1 0) Resd Norm=5.42e+00 at node I20.M0:int_g harm=(6 0) Frequency= 3.0349e+09 Hz, delta f= 9.89e+01 ********** iter = 12 ********** Delta Norm=7.50e+00 at node I19.V1:p harm=(8 0) Resd Norm=5.42e+00 at node I20.M0:int_d harm=(2 0) Frequency= 3.0349e+09 Hz, delta f= -4.90e+04 ********** iter = 13 ********** Damping Factor is 0.627 Delta Norm=2.73e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.81e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 4.74e+04 ********** iter = 14 ********** Delta Norm=7.45e-01 at node V2:p harm=(2 0) Resd Norm=4.30e+00 at node I20.M0:int_d harm=(2 0) Frequency= 3.0349e+09 Hz, delta f= 2.14e+04 ********** iter = 15 ********** Delta Norm=1.33e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.49e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= -8.20e+04 ********** iter = 16 ********** Delta Norm=1.74e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.21e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= -2.60e+03 ********** iter = 17 ********** Delta Norm=1.32e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.14e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0348e+09 Hz, delta f= -2.20e+04 ********** iter = 18 ********** Damping Factor is 0.2352 Delta Norm=1.36e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.61e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 4.06e+04 ********** iter = 19 ********** Damping Factor is 0.2395 Delta Norm=1.57e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.02e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0348e+09 Hz, delta f= -2.93e+04 ********** iter = 20 ********** Delta Norm=1.57e+00 at node V2:p harm=(4 0) Resd Norm=3.10e+00 at node I20.M7:int_g harm=(0 0) Frequency= 3.0348e+09 Hz, delta f= -2.05e+04 ********** iter = 21 ********** Damping Factor is 0.2093 Delta Norm=1.28e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.45e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 4.00e+04 ********** iter = 22 ********** Damping Factor is 0.2269 Delta Norm=1.49e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.87e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0348e+09 Hz, delta f= -2.88e+04 ********** iter = 23 ********** Delta Norm=1.16e+00 at node V2:p harm=(4 0) Resd Norm=3.08e+00 at node I20.M7:int_g harm=(0 0) Frequency= 3.0348e+09 Hz, delta f= -1.06e+04 ********** iter = 24 ********** Damping Factor is 0.1879 Delta Norm=1.23e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.33e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 4.11e+04 ********** iter = 25 ********** Damping Factor is 0.7168 Delta Norm=2.01e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.79e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0348e+09 Hz, delta f= -3.11e+04 ********** iter = 26 ********** Delta Norm=5.04e-01 at node I19.V1:p harm=(8 0) Resd Norm=3.30e+00 at node I20.M7:int_g harm=(0 0) Frequency= 3.0348e+09 Hz, delta f= -2.17e+04 ********** iter = 27 ********** Delta Norm=2.22e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.52e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 8.87e+04 ********** iter = 28 ********** Delta Norm=8.90e-01 at node I19.V1:p harm=(8 0) Resd Norm=2.59e+00 at node I20.M0:int_d harm=(2 0) Frequency= 3.0349e+09 Hz, delta f= -1.35e+04 ********** iter = 29 ********** Damping Factor is 0.05813 Delta Norm=6.50e+00 at node I19.V1:p harm=(8 0) Resd Norm=2.59e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= -1.36e+04 ********** iter = 30 ********** Damping Factor is 0.0793 Delta Norm=7.52e+00 at node I19.V1:p harm=(8 0) Resd Norm=2.79e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 1.86e+04 ********** iter = 31 ********** Damping Factor is 0.3422 Delta Norm=1.54e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.23e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= -3.53e+04 ********** iter = 32 ********** Delta Norm=1.57e+00 at node V2:p harm=(4 0) Resd Norm=3.05e+00 at node I20.M5:int_g harm=(5 0) Frequency= 3.0348e+09 Hz, delta f= -1.57e+04 ********** iter = 33 ********** Damping Factor is 0.175 Delta Norm=1.19e+01 at node I19.V1:p harm=(8 0) Resd Norm=2.86e+00 at node I20.M5:int_g harm=(5 0) Frequency= 3.0349e+09 Hz, delta f= 3.80e+04 ********** iter = 34 ********** Damping Factor is 0.1 Delta Norm=2.53e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.41e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0348e+09 Hz, delta f= -5.72e+04 ********** iter = 35 ********** Delta Norm=6.18e-01 at node I19.V1:p harm=(8 0) Resd Norm=4.17e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= 1.13e+04 ********** iter = 36 ********** Delta Norm=1.19e+00 at node V2:p harm=(4 0) Resd Norm=3.20e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= -5.59e+04 ********** iter = 37 ********** Delta Norm=1.68e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.43e+00 at node I20.M7:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 8.51e+04 ********** iter = 38 ********** Delta Norm=2.06e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.50e+00 at node I20.M7:int_g harm=(4 0) Frequency= 3.0348e+09 Hz, delta f= -2.49e+04 ********** iter = 39 ********** Damping Factor is 0.09926 Delta Norm=9.88e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.43e+00 at node I20.M7:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 3.01e+04 ********** iter = 40 ********** Damping Factor is 0.1056 Delta Norm=1.02e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.45e+00 at node I20.M7:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= -2.17e+04 ********** iter = 41 ********** Damping Factor is 0.2448 Delta Norm=1.47e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.43e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 4.14e+04 ********** iter = 42 ********** Delta Norm=7.90e-01 at node I19.V1:p harm=(8 0) Resd Norm=3.52e+00 at node I20.M7:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= -2.21e+04 ********** iter = 43 ********** Damping Factor is 0.3068 Delta Norm=1.74e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.29e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0348e+09 Hz, delta f= -2.23e+04 ********** iter = 44 ********** Delta Norm=2.36e+00 at node V2:p harm=(4 0) Resd Norm=3.23e+00 at node I20.M5:int_g harm=(0 0) Frequency= 3.0348e+09 Hz, delta f= -1.61e+03 ********** iter = 45 ********** Damping Factor is 0.1553 Delta Norm=1.17e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.12e+00 at node I20.M5:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= 3.62e+04 ********** iter = 46 ********** Damping Factor is 0.1518 Delta Norm=1.17e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.19e+00 at node I20.M5:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= -2.43e+04 ********** iter = 47 ********** Damping Factor is 0.8965 Delta Norm=3.27e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.52e+00 at node I20.M5:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= -2.96e+03 ********** iter = 48 ********** Damping Factor is 0.1486 Delta Norm=1.19e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.68e+00 at node I20.M5:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= 3.32e+04 ********** iter = 49 ********** Damping Factor is 0.2678 Delta Norm=1.70e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.39e+00 at node I20.M5:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= -3.03e+04 ********** iter = 50 ********** Delta Norm=3.99e-01 at node I19.V1:p harm=(8 0) Resd Norm=3.73e+00 at node I20.M7:int_g harm=(0 0) Frequency= 3.0348e+09 Hz, delta f= -2.19e+04 ********** iter = 51 ********** Damping Factor is 0.4495 Delta Norm=1.96e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.43e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 6.25e+04 ********** iter = 52 ********** Delta Norm=1.23e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.14e+00 at node I20.M5:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= -2.26e+04 ********** iter = 53 ********** Damping Factor is 0.4742 Delta Norm=1.90e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.59e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -1.81e+04 ********** iter = 54 ********** Delta Norm=2.04e+00 at node V2:p harm=(4 0) Resd Norm=3.16e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= -2.11e+04 ********** iter = 55 ********** Damping Factor is 0.637 Delta Norm=1.90e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.27e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 6.42e+04 ********** iter = 56 ********** Delta Norm=9.93e-01 at node I19.V1:p harm=(8 0) Resd Norm=2.86e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -2.16e+04 ********** iter = 57 ********** Damping Factor is 0.2153 Delta Norm=1.34e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.15e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -1.47e+04 ********** iter = 58 ********** Damping Factor is 0.2975 Delta Norm=1.49e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.53e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 3.76e+04 ********** iter = 59 ********** Delta Norm=4.23e-01 at node I19.V1:p harm=(8 0) Resd Norm=3.13e+00 at node I20.M7:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= -2.10e+04 ********** iter = 60 ********** Damping Factor is 0.3768 Delta Norm=1.75e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.63e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -1.48e+04 ********** iter = 61 ********** Delta Norm=1.49e+00 at node V2:p harm=(4 0) Resd Norm=3.34e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -1.47e+04 ********** iter = 62 ********** Damping Factor is 0.3749 Delta Norm=1.70e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.27e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 4.85e+04 ********** iter = 63 ********** Delta Norm=9.49e-01 at node I19.V1:p harm=(8 0) Resd Norm=3.20e+00 at node I20.M7:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= -1.77e+04 ********** iter = 64 ********** Damping Factor is 0.2713 Delta Norm=1.58e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.58e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -1.50e+04 ********** iter = 65 ********** Delta Norm=6.19e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.01e+00 at node I20.M7:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= 8.93e+03 ********** iter = 66 ********** Damping Factor is 0.1 Delta Norm=2.58e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.32e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 6.32e+04 ********** iter = 67 ********** Delta Norm=5.81e-01 at node I19.V1:p harm=(8 0) Resd Norm=4.61e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0350e+09 Hz, delta f= 2.50e+04 ********** iter = 68 ********** Delta Norm=2.38e+00 at node I19.V2:p harm=(4 0) Resd Norm=3.73e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -5.51e+04 ********** iter = 69 ********** Damping Factor is 0.539 Delta Norm=1.91e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.80e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= 2.94e+02 ********** iter = 70 ********** Delta Norm=6.42e-01 at node I19.V1:p harm=(8 0) Resd Norm=4.27e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -1.93e+04 ********** iter = 71 ********** Damping Factor is 0.5722 Delta Norm=2.46e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.54e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= -4.40e+04 ********** iter = 72 ********** Damping Factor is 0.8576 Delta Norm=6.01e-01 at node I19.V1:p harm=(8 0) Resd Norm=5.19e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= 2.21e+04 ********** iter = 73 ********** Delta Norm=6.80e+00 at node V2:p harm=(4 0) Resd Norm=3.77e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= -3.39e+04 ********** iter = 74 ********** Delta Norm=1.60e+01 at node I19.V1:p harm=(8 0) Resd Norm=2.93e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= 5.92e+04 ********** iter = 75 ********** Delta Norm=2.66e+00 at node I19.V1:p harm=(8 0) Resd Norm=2.67e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -2.07e+04 ********** iter = 76 ********** Damping Factor is 0.1 Delta Norm=3.04e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.97e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0350e+09 Hz, delta f= 7.69e+04 ********** iter = 77 ********** Delta Norm=1.27e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.98e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -7.24e+04 ********** iter = 78 ********** Damping Factor is 0.8711 Delta Norm=1.31e+00 at node I19.V1:p harm=(8 0) Resd Norm=4.48e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0350e+09 Hz, delta f= 8.62e+04 ********** iter = 79 ********** Delta Norm=1.19e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.57e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -5.27e+04 ********** iter = 80 ********** Damping Factor is 0.8837 Delta Norm=9.71e+00 at node I19.V1:p harm=(8 0) Resd Norm=5.07e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -1.56e+04 ********** iter = 81 ********** Delta Norm=2.10e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.33e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -3.51e+04 ********** iter = 82 ********** Delta Norm=7.34e-01 at node I19.V1:p harm=(8 0) Resd Norm=4.07e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= -1.50e+04 ********** iter = 83 ********** Delta Norm=1.80e+01 at node I19.V1:p harm=(8 0) Resd Norm=3.04e+00 at node I20.M5:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 7.12e+04 ********** iter = 84 ********** Delta Norm=1.31e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.19e+00 at node I20.M7:int_g harm=(5 0) Frequency= 3.0349e+09 Hz, delta f= -1.87e+04 ********** iter = 85 ********** Damping Factor is 0.09393 Delta Norm=9.25e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.07e+00 at node I20.M7:int_g harm=(5 0) Frequency= 3.0349e+09 Hz, delta f= -1.87e+04 ********** iter = 86 ********** Damping Factor is 0.05026 Delta Norm=6.62e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.01e+00 at node I20.M7:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 1.79e+04 ********** iter = 87 ********** Damping Factor is 0.1 Delta Norm=3.01e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.79e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0348e+09 Hz, delta f= -6.96e+04 ********** iter = 88 ********** Delta Norm=1.25e+00 at node I19.V1:p harm=(8 0) Resd Norm=4.65e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= -5.48e+04 ********** iter = 89 ********** Delta Norm=9.26e-01 at node I19.V1:p harm=(8 0) Resd Norm=4.17e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= 2.17e+04 ********** iter = 90 ********** Delta Norm=8.48e+00 at node I19.V1:p harm=(8 0) Resd Norm=3.39e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0348e+09 Hz, delta f= 2.38e+04 ********** iter = 91 ********** Delta Norm=1.54e+01 at node I19.V1:p harm=(8 0) Resd Norm=2.99e+00 at node I20.M0:int_d harm=(8 0) Frequency= 3.0349e+09 Hz, delta f= 4.46e+04 ********** iter = 92 ********** Delta Norm=2.04e+00 at node I19.V1:p harm=(8 0) Resd Norm=2.96e+00 at node I20.M5:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= -9.81e+03 ********** iter = 93 ********** Damping Factor is 0.04736 Delta Norm=6.31e+00 at node I19.V1:p harm=(8 0) Resd Norm=2.96e+00 at node I20.M5:int_g harm=(5 0) Frequency= 3.0349e+09 Hz, delta f= 1.85e+04 ********** iter = 94 ********** Damping Factor is 0.1 Delta Norm=2.51e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.20e+00 at node I20.M0:int_g harm=(4 0) Frequency= 3.0349e+09 Hz, delta f= 6.26e+04 ********** iter = 95 ********** Delta Norm=6.58e-01 at node V2:p harm=(2 0) Resd Norm=3.73e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0350e+09 Hz, delta f= 3.83e+04 ********** iter = 96 ********** Delta Norm=7.28e+00 at node I19.V1:p harm=(8 0) Resd Norm=4.08e+00 at node I20.M5:int_g harm=(0 0) Frequency= 3.0349e+09 Hz, delta f= -7.78e+04 ********** iter = 97 ********** Damping Factor is 0.757 Delta Norm=1.84e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.61e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -3.96e+02 ********** iter = 98 ********** Delta Norm=1.46e+00 at node V2:p harm=(4 0) Resd Norm=3.95e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -2.51e+04 ********** iter = 99 ********** Damping Factor is 0.1 Delta Norm=1.71e+01 at node I19.V1:p harm=(8 0) Resd Norm=4.28e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= 4.23e+04 ********** iter = 100 ********** Damping Factor is 0.8817 Delta Norm=6.08e+00 at node I19.V1:p harm=(8 0) Resd Norm=4.77e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -1.40e+04 Notice from spectre during Harmonic Balance Steady State Analysis `hb'. Residual norm is close to convergence, try more iterations... ********** iter = 101 ********** Damping Factor is 0.5793 Warning from spectre during Harmonic Balance Steady State Analysis `hb'. WARNING: Newton stagnates, but the norm is very close to the desired tolerance. The solution is considered converged. Delta Norm=2.71e+01 at node I19.V1:p harm=(8 0) Resd Norm=5.27e+00 at node I20.M0:int_g harm=(10 0) Frequency= 3.0349e+09 Hz, delta f= -3.57e+04 ************************************************* Fundamental frequency is 3.03486 GHz. ************************************************* CPU time=43 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 = 47.9787 s, elapsed = 48.0925 s. Time accumulated: CPU = 48.3087 s, elapsed = 48.6191 s. Peak resident memory used = 87 Mbytes. 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 ...