********************************************************************** MRCC program system ********************************************************************** Written by Mihaly Kallay, Zoltan Rolik, Jozsef Csontos, Peter Nagy, Gyula Samu, David Mester, Jozsef Csoka, Bernat Szabo, Istvan Ladjanszki, Lorant Szegedy, Bence Ladoczki, Klara Petrov, Mate Farkas, Pal D. Mezei, and Bence Hegely Department of Physical Chemistry and Materials Science Budapest University of Technology and Economics Budapest P.O.Box 91, H-1521 Hungary www.mrcc.hu Release date: Feb 4, 2018 ************************ 2018-02-25 21:00:35 ************************* Executing minp... Reading input from MINP... Input file: basis=cc-pvqz mult=1 scftype=rhf calc=CCSDT mem=220000MB scftol=10 cctol=8 ovirt=MP2 eps=.990 geom=xyz 17 ! Number of atoms C5H12 C 0.000000000000 2.545140000000 -0.331725000000 C 0.000000000000 1.276627000000 0.515684000000 C 0.000000000000 0.000000000000 -0.320398000000 H 0.000000000000 3.441734000000 0.289375000000 H -0.880791000000 2.586523000000 -0.975403000000 H 0.880791000000 2.586523000000 -0.975403000000 H -0.874806000000 1.275648000000 1.172827000000 H 0.874806000000 1.275648000000 1.172827000000 C 0.000000000000 -1.276627000000 0.515684000000 H -0.875446000000 0.000000000000 -0.978972000000 H 0.875446000000 0.000000000000 -0.978972000000 C 0.000000000000 -2.545140000000 -0.331725000000 H -0.874806000000 -1.275648000000 1.172827000000 H 0.874806000000 -1.275648000000 1.172827000000 H 0.000000000000 -3.441734000000 0.289375000000 H -0.880791000000 -2.586523000000 -0.975403000000 H 0.880791000000 -2.586523000000 -0.975403000000 Checking keyword combinations... Keywords: active=none agrid=ld0006-ld0590 basis=cc-pvqz basis_sm=none basopt=off bfbasis=none bpcompo=0.985 bpcompv=0.98 bpdfo=0.985 bpocc=0.985 bppdo=0.985 bppdv=0.98 bpedo=0.985 bpedv=0.98 calc=ccsdt ccmaxit=50 ccprog=mrcc cctol=8 charge=0 cialg=disk ciguess=off cmpgrp=auto core=frozen corembed=off dboc=off dendec=cholesky dens=0 dfalg=invsqrt dfbasis_cor=none dfbasis_scf=none dfintran=ovirt dft=off diag=david domrad=10.d0 drpaalg=fit dual=off ecp=auto edisp=off embed=off epert=none eps=.990 excrad=0.d0 excrad_fin=0.000000000D+00 freq=off gauss=spher geom=xyz gopt=off ghost=none gtol=7 grdens=off grtol=10 hamilton=dc iface=none intalg=auto itol=14 laptol=1.d-2 lcorthr=loose lccrest=off lmp2dens=on lnoepso=3e-5 lnoepsv=1e-6 localcc=off locintrf=disk maxact=off maxex=0 mem=220000mb molden=on mulmet=0 mult=1 nacto=0 nactv=0 naf_cor=off naf_scf=off nafalg=albe naftyp= nchol=auto ndeps=1e-3 nstate=1 nsing=0 ntrip=0 occ= optalg= optmaxit=50 optetol=1e-6 optgtol=1e-4 optstol=1e-3 orblocc=off orbloco=off orblocv=off osveps=1e-3 ovirt=mp2 ovosnorb=80.0 ptfreq=0.0 popul=off pressure=100000 qscf=off qmmm=off redcost_exc=off refdet=none rest=0 rgrid=log3 rohftype=standard scfalg=auto scfdamp=off scfdiis=on scfdiis_end=50 scfdiis_start=1 scfdiis_step=1 scfdtol=11 scfext=10 scfiguess=sad scflshift=off scfmaxit=50 scftype=rhf scftol=10 scspe=1.d0 scsps=1.2d0 scspt=0.33333333333333 scspv=1.d0 spairtol=1e-4 symm= talg=occ temp=298.15 test=off tprint=off uncontract=off unit=angs verbosity=2 wpairtol=0.100000000E-05 ************************ 2018-02-25 21:00:35 ************************* Executing integ... Allocation of 214.8 Gbytes of memory... Number of atoms: 17 Charge: 0 Number of electrons: 42 Number of core electrons: 10 Spin multiplicity: 1 Cartesian coordinates [bohr] Atomic mass [AMU] Z 1 C 0.00000000 4.80961755 -0.62686940 12.000000 6 2 C 0.00000000 2.41247539 0.97450153 12.000000 6 3 C 0.00000000 0.00000000 -0.60546447 12.000000 6 4 H 0.00000000 6.50393466 0.54683950 1.007825 1 5 H -1.66445376 4.88782009 -1.84324453 1.007825 1 6 H 1.66445376 4.88782009 -1.84324453 1.007825 1 7 H -1.65314375 2.41062535 2.21632182 1.007825 1 8 H 1.65314375 2.41062535 2.21632182 1.007825 1 9 C 0.00000000 -2.41247539 0.97450153 12.000000 6 10 H -1.65435318 0.00000000 -1.84998896 1.007825 1 11 H 1.65435318 0.00000000 -1.84998896 1.007825 1 12 C 0.00000000 -4.80961755 -0.62686940 12.000000 6 13 H -1.65314375 -2.41062535 2.21632182 1.007825 1 14 H 1.65314375 -2.41062535 2.21632182 1.007825 1 15 H 0.00000000 -6.50393466 0.54683950 1.007825 1 16 H -1.66445376 -4.88782009 -1.84324453 1.007825 1 17 H 1.66445376 -4.88782009 -1.84324453 1.007825 1 This molecule is an asymmetric top. Rotational constants [cm-1]: 0.571568124263 0.064900939339 0.061586470139 Point group: C2v Computational point group: C2v Cartesian coordinates in standard orientation [bohr] 1 C 4.80961755 0.00000000 -0.62624370 2 C 2.41247539 0.00000000 0.97512723 3 C 0.00000000 0.00000000 -0.60483877 4 H 6.50393466 0.00000000 0.54746520 5 H 4.88782009 -1.66445376 -1.84261883 6 H 4.88782009 1.66445376 -1.84261883 7 H 2.41062535 -1.65314375 2.21694753 8 H 2.41062535 1.65314375 2.21694753 9 C -2.41247539 0.00000000 0.97512723 10 H 0.00000000 -1.65435318 -1.84936326 11 H 0.00000000 1.65435318 -1.84936326 12 C -4.80961755 0.00000000 -0.62624370 13 H -2.41062535 -1.65314375 2.21694753 14 H -2.41062535 1.65314375 2.21694753 15 H -6.50393466 0.00000000 0.54746520 16 H -4.88782009 -1.66445376 -1.84261883 17 H -4.88782009 1.66445376 -1.84261883 Nuclear repulsion energy [au]: 185.136364312461 Basis set information: Maximum angular momentum: g Maximum number of contracted Gaussians: 5 Maximum number of primitive Gaussians: 12 Spherical harmonic GTOs are used. 1 C cc-pvqz [ 12s 6p 3d 2f 1g | 5s 4p 3d 2f 1g ] 2 C cc-pvqz [ 12s 6p 3d 2f 1g | 5s 4p 3d 2f 1g ] 3 C cc-pvqz [ 12s 6p 3d 2f 1g | 5s 4p 3d 2f 1g ] 4 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] 5 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] 6 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] 7 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] 8 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] 9 C cc-pvqz [ 12s 6p 3d 2f 1g | 5s 4p 3d 2f 1g ] 10 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] 11 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] 12 C cc-pvqz [ 12s 6p 3d 2f 1g | 5s 4p 3d 2f 1g ] 13 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] 14 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] 15 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] 16 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] 17 H cc-pvqz [ 6s 3p 2d 1f | 4s 3p 2d 1f ] Total number of basis functions: 635 Generating initial guess for the SCF calculation... CPU time [min]: 0.002 Wall time [min]: 0.024 Character table for point group C2v: E C2 Qh Qv A1 1 1 1 1 B1 1 -1 1 -1 B2 1 -1 -1 1 A2 1 1 -1 -1 Number of basis functions per irrep: A1 192 B1 143 B2 173 A2 127 Calculation of overlap integrals... CPU time [min]: 0.003 Wall time [min]: 0.024 Calculation of kinetic energy integrals... CPU time [min]: 0.004 Wall time [min]: 0.025 Calculation of nuclear attraction integrals... CPU time [min]: 0.005 Wall time [min]: 0.025 Calculation of prescreening integrals... CPU time [min]: 0.323 Wall time [min]: 0.051 Calculation of the square root of the overlap matrix... CPU time [min]: 0.355 Wall time [min]: 0.054 Calculation of two-electron integrals... 1% done. 12% done. 25% done. 38% done. 52% done. 64% done. 79% done. 90% done. 100% done. CPU time [min]: 288.029 Wall time [min]: 24.046 ************************ 2018-02-25 21:24:38 ************************* Executing scf... Allocation of 214.8 Gbytes of memory... ====================================================================== ITERATION STEP 1 CPU time [min]: 0.017 Wall time [min]: 0.003 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 1 IS -195.5437903760786185 [AU] ====================================================================== ITERATION STEP 2 CPU time [min]: 3.277 Wall time [min]: 3.196 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 2 IS -196.3322854602157577 [AU] ====================================================================== ITERATION STEP 3 CPU time [min]: 6.505 Wall time [min]: 6.341 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 3 IS -196.3997756325734372 [AU] ====================================================================== ITERATION STEP 4 CPU time [min]: 9.738 Wall time [min]: 9.519 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 4 IS -196.4153199629276969 [AU] ====================================================================== ITERATION STEP 5 CPU time [min]: 12.977 Wall time [min]: 12.695 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 5 IS -196.4157711388565986 [AU] ====================================================================== ITERATION STEP 6 CPU time [min]: 16.234 Wall time [min]: 15.870 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 6 IS -196.4157957404036097 [AU] ====================================================================== ITERATION STEP 7 CPU time [min]: 19.459 Wall time [min]: 19.043 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 7 IS -196.4157981595466254 [AU] ====================================================================== ITERATION STEP 8 CPU time [min]: 22.670 Wall time [min]: 22.185 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 8 IS -196.4157982432159315 [AU] ====================================================================== ITERATION STEP 9 CPU time [min]: 25.880 Wall time [min]: 25.326 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 9 IS -196.4157982468885848 [AU] ====================================================================== ITERATION STEP 10 CPU time [min]: 29.134 Wall time [min]: 28.501 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 10 IS -196.4157982470720185 [AU] ====================================================================== ITERATION STEP 11 CPU time [min]: 32.386 Wall time [min]: 31.676 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 11 IS -196.4157982470828756 [AU] ====================================================================== ITERATION STEP 12 CPU time [min]: 35.604 Wall time [min]: 34.841 ALPHA OCC: 9 3 7 2 BETA OCC: 9 3 7 2 ***HARTREE-FOCK ENERGY IN STEP 12 IS -196.4157982470855472 [AU] ====================================================================== SUCCESS... THE SCF ITERATION HAS CONVERGED! A1 B1 B2 A2 FINAL ALPHA OCC: 9 3 7 2 FINAL BETA OCC: 9 3 7 2 ***FINAL HARTREE-FOCK ENERGY: -196.4157982470855472 [AU] RETURNING FROM SCF ALGORITHM ====================================================================== ************************ 2018-02-25 22:02:38 ************************* Executing ovirt... ovirt, the routine of orbital optimization and integral transformation Sun Feb 25 22:02:38 CST 2018 Virtual orbitals will be optimized using MP2 natural orbitals threshold for the cumulated population: 0.99 Allocated memory: 220000 Mb RHF calculation! integral transformation: AOs ------ MOs # of basis functions, # of int. blocks 635 6 16 % 33 % 50 % 66 % 83 % 100 % second part 16 % 33 % 50 % 66 % 83 % 100 % integral transformation is completed! CPU and WC time 3315.24 3897.33 AOs -> MOs dim. of the original and the reduced basis 630 224 integral transformation: AOs ------ optimized MOs # of basis functions, # of int. blocks 635 6 16 % 33 % 50 % 66 % 83 % 100 % second part 100 % integral transformation is completed! CPU and WC time 14312.00 3294.16 AO -> Opt MO Integrals are written to fort.55 ovirt terminated normally ************************ 2018-02-26 00:13:36 ************************* Executing goldstone... Generation of CC equations in terms of H and T... Generation of antisymmetrized Goldstone diagrams... Number of diagrams in T^1 equations: 15 Number of diagrams in T^2 equations: 37 Number of diagrams in T^3 equations: 47 Translation of diagrams to factorized equations... Optimizing intermediate calculation... Optimizing right-hand EOMCC calculation... Optimizing left-hand EOMCC calculation... Optimizing density-matrix calculation... Optimizing perturbed lambda equations... Optimizing perturbed density calculation... Number of floating-point operations per iteration step: 8.2620E+14 Probable CPU time per iteration step (hours): 8262.03 Required memory (Mbytes): 247697.7 Number of intermediates: 594 Number of intermediates to be stored: 182 Length of intermediate file (Mbytes): 137556.9 ************************ 2018-02-26 00:13:36 ************************* Executing xmrcc... ********************************************************************** CC( 3 ) calculation Allocation of 0.5 Mbytes of memory... Number of spinorbitals: 448 Number of alpha electrons: 16 Number of beta electrons: 16 Spin multiplicity: 1 z-component of spin: 0.0 Spatial symmetry: 1 Convergence criterion: 1.0E-08 Construction of occupation graphs... forrtl: severe (174): SIGSEGV, segmentation fault occurred Image PC Routine Line Source xmrcc 0000000000EC3329 Unknown Unknown Unknown xmrcc 0000000000EC1BFE Unknown Unknown Unknown xmrcc 0000000000E7AAF2 Unknown Unknown Unknown xmrcc 0000000000E26D28 Unknown Unknown Unknown xmrcc 0000000000E2CE2B Unknown Unknown Unknown xmrcc 0000000000E1F460 Unknown Unknown Unknown xmrcc 000000000040E914 Unknown Unknown Unknown xmrcc 000000000040E886 Unknown Unknown Unknown xmrcc 000000000040E886 Unknown Unknown Unknown xmrcc 000000000040E886 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Unknown xmrcc 000000000040E830 Unknown Unknown Stack trace buffer overflow; further frames not shown. Fatal error in xmrcc. Program will stop. ************************ 2018-02-26 00:13:37 ************************* Error at the termination of mrcc. **********************************************************************