--- An Ab Initio, DFT and Semiempirical electronic structure package ---
#######################################################
# -***- #
# Department of theory and spectroscopy #
# Directorship: Frank Neese #
# Max Planck Institute fuer Kohlenforschung #
# Kaiser Wilhelm Platz 1 #
# D-45470 Muelheim/Ruhr #
# Germany #
# #
# All rights reserved #
# -***- #
#######################################################
Program Version 4.2.0 - RELEASE -
With contributions from (in alphabetic order):
Daniel Aravena : Magnetic Suceptibility
Michael Atanasov : Ab Initio Ligand Field Theory (pilot matlab implementation)
Alexander A. Auer : GIAO ZORA, VPT2
Ute Becker : Parallelization
Giovanni Bistoni : ED, misc. LED, open-shell LED, HFLED
Martin Brehm : Molecular dynamics
Dmytro Bykov : SCF Hessian
Vijay G. Chilkuri : MRCI spin determinant printing, contributions to CSF-ICE
Dipayan Datta : RHF DLPNO-CCSD density
Achintya Kumar Dutta : EOM-CC, STEOM-CC
Dmitry Ganyushin : Spin-Orbit,Spin-Spin,Magnetic field MRCI
Miquel Garcia : C-PCM Hessian, Gaussian charge scheme
Yang Guo : DLPNO-NEVPT2, CIM, IAO-localization
Andreas Hansen : Spin unrestricted coupled pair/coupled cluster methods
Benjamin Helmich-Paris : CASSCF linear response (MC-RPA)
Lee Huntington : MR-EOM, pCC
Robert Izsak : Overlap fitted RIJCOSX, COSX-SCS-MP3, EOM
Christian Kollmar : KDIIS, OOCD, Brueckner-CCSD(T), CCSD density
Simone Kossmann : Meta GGA functionals, TD-DFT gradient, OOMP2, MP2 Hessian
Martin Krupicka : AUTO-CI
Lucas Lang : DCDCAS
Dagmar Lenk : GEPOL surface, SMD
Dimitrios Liakos : Extrapolation schemes; Compound Job, initial MDCI parallelization
Dimitrios Manganas : Further ROCIS development; embedding schemes
Dimitrios Pantazis : SARC Basis sets
Taras Petrenko : DFT Hessian,TD-DFT gradient, ASA, ECA, R-Raman, ABS, FL, XAS/XES, NRVS
Peter Pinski : DLPNO-MP2, DLPNO-MP2 Gradient
Christoph Reimann : Effective Core Potentials
Marius Retegan : Local ZFS, SOC
Christoph Riplinger : Optimizer, TS searches, QM/MM, DLPNO-CCSD(T), (RO)-DLPNO pert. Triples
Tobias Risthaus : Range-separated hybrids, TD-DFT gradient, RPA, STAB
Michael Roemelt : Original ROCIS implementation
Masaaki Saitow : Open-shell DLPNO-CCSD energy and density
Barbara Sandhoefer : DKH picture change effects
Avijit Sen : IP-ROCIS
Kantharuban Sivalingam : CASSCF convergence, NEVPT2, FIC-MRCI
Bernardo de Souza : ESD, SOC TD-DFT
Georgi Stoychev : AutoAux, RI-MP2 NMR
Willem Van den Heuvel : Paramagnetic NMR
Boris Wezisla : Elementary symmetry handling
Frank Wennmohs : Technical directorship
We gratefully acknowledge several colleagues who have allowed us to
interface, adapt or use parts of their codes:
Stefan Grimme, W. Hujo, H. Kruse, : VdW corrections, initial TS optimization,
C. Bannwarth DFT functionals, gCP, sTDA/sTD-DF
Ed Valeev, F. Pavosevic, A. Kumar : LibInt (2-el integral package), F12 methods
Garnet Chan, S. Sharma, J. Yang, R. Olivares : DMRG
Ulf Ekstrom : XCFun DFT Library
Mihaly Kallay : mrcc (arbitrary order and MRCC methods)
Andreas Klamt, Michael Diedenhofen : otool_cosmo (COSMO solvation model)
Jiri Pittner, Ondrej Demel : Mk-CCSD
Frank Weinhold : gennbo (NPA and NBO analysis)
Christopher J. Cramer and Donald G. Truhlar : smd solvation model
Lars Goerigk : TD-DFT with DH, B97 family of functionals
V. Asgeirsson, H. Jonsson : NEB implementation
FAccTs GmbH : IRC, NEB, NEB-TS, Multilevel, MM, QM/MM, CI optimization
S Lehtola, MJT Oliveira, MAL Marques : LibXC Library
Your calculation uses the libint2 library for the computation of 2-el integrals
For citations please refer to: http://libint.valeyev.net
Your ORCA version has been built with support for libXC version: 4.2.3
For citations please refer to: https://tddft.org/programs/libxc/
This ORCA versions uses:
CBLAS interface : Fast vector & matrix operations
LAPACKE interface : Fast linear algebra routines
----- Orbital basis set information -----
Your calculation utilizes the basis: def2-SVP
F. Weigend and R. Ahlrichs, Phys. Chem. Chem. Phys. 7, 3297 (2005).
----- AuxJ basis set information -----
Your calculation utilizes the auxiliary basis: def2/J
F. Weigend, Phys. Chem. Chem. Phys. 8, 1057 (2006).
================================================================================
WARNINGS
Please study these warnings very carefully!
================================================================================
| 7> * ****END OF INPUT****
================================================================================
****************************
* Single Point Calculation *
****************************
---------------------------------
CARTESIAN COORDINATES (ANGSTROEM)
---------------------------------
C 0.000000 0.000000 -0.562211
H 0.000000 -0.924448 -1.101105
H -0.000000 0.924448 -1.101105
O 0.000000 0.000000 0.696189
----------------------------
CARTESIAN COORDINATES (A.U.)
----------------------------
NO LB ZA FRAG MASS X Y Z
0 C 6.0000 0 12.011 0.000000 0.000000 -1.062424
1 H 1.0000 0 1.008 0.000000 -1.746953 -2.080788
2 H 1.0000 0 1.008 -0.000000 1.746953 -2.080788
3 O 8.0000 0 15.999 0.000000 0.000000 1.315607
ORCA finished by error termination in GTOInt
Calling Command: mpiexec -np 4 D:\orca4\orca_gtoint_mpi.exe water.int.tmp water
[file orca_tools/qcmsg.cpp, line 458]:
.... aborting the run
--- An Ab Initio, DFT and Semiempirical electronic structure package ---
#######################################################
# -***- #
# Department of theory and spectroscopy #
# Directorship: Frank Neese #
# Max Planck Institute fuer Kohlenforschung #
# Kaiser Wilhelm Platz 1 #
# D-45470 Muelheim/Ruhr #
# Germany #
# #
# All rights reserved #
# -***- #
#######################################################
Program Version 4.2.0 - RELEASE -
With contributions from (in alphabetic order):
Daniel Aravena : Magnetic Suceptibility
Michael Atanasov : Ab Initio Ligand Field Theory (pilot matlab implementation)
Alexander A. Auer : GIAO ZORA, VPT2
Ute Becker : Parallelization
Giovanni Bistoni : ED, misc. LED, open-shell LED, HFLED
Martin Brehm : Molecular dynamics
Dmytro Bykov : SCF Hessian
Vijay G. Chilkuri : MRCI spin determinant printing, contributions to CSF-ICE
Dipayan Datta : RHF DLPNO-CCSD density
Achintya Kumar Dutta : EOM-CC, STEOM-CC
Dmitry Ganyushin : Spin-Orbit,Spin-Spin,Magnetic field MRCI
Miquel Garcia : C-PCM Hessian, Gaussian charge scheme
Yang Guo : DLPNO-NEVPT2, CIM, IAO-localization
Andreas Hansen : Spin unrestricted coupled pair/coupled cluster methods
Benjamin Helmich-Paris : CASSCF linear response (MC-RPA)
Lee Huntington : MR-EOM, pCC
Robert Izsak : Overlap fitted RIJCOSX, COSX-SCS-MP3, EOM
Christian Kollmar : KDIIS, OOCD, Brueckner-CCSD(T), CCSD density
Simone Kossmann : Meta GGA functionals, TD-DFT gradient, OOMP2, MP2 Hessian
Martin Krupicka : AUTO-CI
Lucas Lang : DCDCAS
Dagmar Lenk : GEPOL surface, SMD
Dimitrios Liakos : Extrapolation schemes; Compound Job, initial MDCI parallelization
Dimitrios Manganas : Further ROCIS development; embedding schemes
Dimitrios Pantazis : SARC Basis sets
Taras Petrenko : DFT Hessian,TD-DFT gradient, ASA, ECA, R-Raman, ABS, FL, XAS/XES, NRVS
Peter Pinski : DLPNO-MP2, DLPNO-MP2 Gradient
Christoph Reimann : Effective Core Potentials
Marius Retegan : Local ZFS, SOC
Christoph Riplinger : Optimizer, TS searches, QM/MM, DLPNO-CCSD(T), (RO)-DLPNO pert. Triples
Tobias Risthaus : Range-separated hybrids, TD-DFT gradient, RPA, STAB
Michael Roemelt : Original ROCIS implementation
Masaaki Saitow : Open-shell DLPNO-CCSD energy and density
Barbara Sandhoefer : DKH picture change effects
Avijit Sen : IP-ROCIS
Kantharuban Sivalingam : CASSCF convergence, NEVPT2, FIC-MRCI
Bernardo de Souza : ESD, SOC TD-DFT
Georgi Stoychev : AutoAux, RI-MP2 NMR
Willem Van den Heuvel : Paramagnetic NMR
Boris Wezisla : Elementary symmetry handling
Frank Wennmohs : Technical directorship
We gratefully acknowledge several colleagues who have allowed us to
interface, adapt or use parts of their codes:
Stefan Grimme, W. Hujo, H. Kruse, : VdW corrections, initial TS optimization,
C. Bannwarth DFT functionals, gCP, sTDA/sTD-DF
Ed Valeev, F. Pavosevic, A. Kumar : LibInt (2-el integral package), F12 methods
Garnet Chan, S. Sharma, J. Yang, R. Olivares : DMRG
Ulf Ekstrom : XCFun DFT Library
Mihaly Kallay : mrcc (arbitrary order and MRCC methods)
Andreas Klamt, Michael Diedenhofen : otool_cosmo (COSMO solvation model)
Jiri Pittner, Ondrej Demel : Mk-CCSD
Frank Weinhold : gennbo (NPA and NBO analysis)
Christopher J. Cramer and Donald G. Truhlar : smd solvation model
Lars Goerigk : TD-DFT with DH, B97 family of functionals
V. Asgeirsson, H. Jonsson : NEB implementation
FAccTs GmbH : IRC, NEB, NEB-TS, Multilevel, MM, QM/MM, CI optimization
S Lehtola, MJT Oliveira, MAL Marques : LibXC Library
Your calculation uses the libint2 library for the computation of 2-el integrals
For citations please refer to: http://libint.valeyev.net
Your ORCA version has been built with support for libXC version: 4.2.3
For citations please refer to: https://tddft.org/programs/libxc/
This ORCA versions uses:
CBLAS interface : Fast vector & matrix operations
LAPACKE interface : Fast linear algebra routines
----- Orbital basis set information -----
Your calculation utilizes the basis: def2-SVP
F. Weigend and R. Ahlrichs, Phys. Chem. Chem. Phys. 7, 3297 (2005).
----- AuxJ basis set information -----
Your calculation utilizes the auxiliary basis: def2/J
F. Weigend, Phys. Chem. Chem. Phys. 8, 1057 (2006).
================================================================================
WARNINGS
Please study these warnings very carefully!
================================================================================
| 7> * ****END OF INPUT****
================================================================================
****************************
* Single Point Calculation *
****************************
---------------------------------
CARTESIAN COORDINATES (ANGSTROEM)
---------------------------------
C 0.000000 0.000000 -0.562211
H 0.000000 -0.924448 -1.101105
H -0.000000 0.924448 -1.101105
O 0.000000 0.000000 0.696189
----------------------------
CARTESIAN COORDINATES (A.U.)
----------------------------
NO LB ZA FRAG MASS X Y Z
0 C 6.0000 0 12.011 0.000000 0.000000 -1.062424
1 H 1.0000 0 1.008 0.000000 -1.746953 -2.080788
2 H 1.0000 0 1.008 -0.000000 1.746953 -2.080788
3 O 8.0000 0 15.999 0.000000 0.000000 1.315607
ORCA finished by error termination in GTOInt
Calling Command: mpiexec -np 4 D:\orca4\orca_gtoint_mpi.exe water.int.tmp water
[file orca_tools/qcmsg.cpp, line 458]:
.... aborting the run
--- An Ab Initio, DFT and Semiempirical electronic structure package ---
#######################################################
# -***- #
# Department of theory and spectroscopy #
# Directorship: Frank Neese #
# Max Planck Institute fuer Kohlenforschung #
# Kaiser Wilhelm Platz 1 #
# D-45470 Muelheim/Ruhr #
# Germany #
# #
# All rights reserved #
# -***- #
#######################################################
Program Version 4.2.0 - RELEASE -
With contributions from (in alphabetic order):
Daniel Aravena : Magnetic Suceptibility
Michael Atanasov : Ab Initio Ligand Field Theory (pilot matlab implementation)
Alexander A. Auer : GIAO ZORA, VPT2
Ute Becker : Parallelization
Giovanni Bistoni : ED, misc. LED, open-shell LED, HFLED
Martin Brehm : Molecular dynamics
Dmytro Bykov : SCF Hessian
Vijay G. Chilkuri : MRCI spin determinant printing, contributions to CSF-ICE
Dipayan Datta : RHF DLPNO-CCSD density
Achintya Kumar Dutta : EOM-CC, STEOM-CC
Dmitry Ganyushin : Spin-Orbit,Spin-Spin,Magnetic field MRCI
Miquel Garcia : C-PCM Hessian, Gaussian charge scheme
Yang Guo : DLPNO-NEVPT2, CIM, IAO-localization
Andreas Hansen : Spin unrestricted coupled pair/coupled cluster methods
Benjamin Helmich-Paris : CASSCF linear response (MC-RPA)
Lee Huntington : MR-EOM, pCC
Robert Izsak : Overlap fitted RIJCOSX, COSX-SCS-MP3, EOM
Christian Kollmar : KDIIS, OOCD, Brueckner-CCSD(T), CCSD density
Simone Kossmann : Meta GGA functionals, TD-DFT gradient, OOMP2, MP2 Hessian
Martin Krupicka : AUTO-CI
Lucas Lang : DCDCAS
Dagmar Lenk : GEPOL surface, SMD
Dimitrios Liakos : Extrapolation schemes; Compound Job, initial MDCI parallelization
Dimitrios Manganas : Further ROCIS development; embedding schemes
Dimitrios Pantazis : SARC Basis sets
Taras Petrenko : DFT Hessian,TD-DFT gradient, ASA, ECA, R-Raman, ABS, FL, XAS/XES, NRVS
Peter Pinski : DLPNO-MP2, DLPNO-MP2 Gradient
Christoph Reimann : Effective Core Potentials
Marius Retegan : Local ZFS, SOC
Christoph Riplinger : Optimizer, TS searches, QM/MM, DLPNO-CCSD(T), (RO)-DLPNO pert. Triples
Tobias Risthaus : Range-separated hybrids, TD-DFT gradient, RPA, STAB
Michael Roemelt : Original ROCIS implementation
Masaaki Saitow : Open-shell DLPNO-CCSD energy and density
Barbara Sandhoefer : DKH picture change effects
Avijit Sen : IP-ROCIS
Kantharuban Sivalingam : CASSCF convergence, NEVPT2, FIC-MRCI
Bernardo de Souza : ESD, SOC TD-DFT
Georgi Stoychev : AutoAux, RI-MP2 NMR
Willem Van den Heuvel : Paramagnetic NMR
Boris Wezisla : Elementary symmetry handling
Frank Wennmohs : Technical directorship
We gratefully acknowledge several colleagues who have allowed us to
interface, adapt or use parts of their codes:
Stefan Grimme, W. Hujo, H. Kruse, : VdW corrections, initial TS optimization,
C. Bannwarth DFT functionals, gCP, sTDA/sTD-DF
Ed Valeev, F. Pavosevic, A. Kumar : LibInt (2-el integral package), F12 methods
Garnet Chan, S. Sharma, J. Yang, R. Olivares : DMRG
Ulf Ekstrom : XCFun DFT Library
Mihaly Kallay : mrcc (arbitrary order and MRCC methods)
Andreas Klamt, Michael Diedenhofen : otool_cosmo (COSMO solvation model)
Jiri Pittner, Ondrej Demel : Mk-CCSD
Frank Weinhold : gennbo (NPA and NBO analysis)
Christopher J. Cramer and Donald G. Truhlar : smd solvation model
Lars Goerigk : TD-DFT with DH, B97 family of functionals
V. Asgeirsson, H. Jonsson : NEB implementation
FAccTs GmbH : IRC, NEB, NEB-TS, Multilevel, MM, QM/MM, CI optimization
S Lehtola, MJT Oliveira, MAL Marques : LibXC Library
Your calculation uses the libint2 library for the computation of 2-el integrals
For citations please refer to: http://libint.valeyev.net
Your ORCA version has been built with support for libXC version: 4.2.3
For citations please refer to: https://tddft.org/programs/libxc/
This ORCA versions uses:
CBLAS interface : Fast vector & matrix operations
LAPACKE interface : Fast linear algebra routines
----- Orbital basis set information -----
Your calculation utilizes the basis: def2-SVP
F. Weigend and R. Ahlrichs, Phys. Chem. Chem. Phys. 7, 3297 (2005).
----- AuxJ basis set information -----
Your calculation utilizes the auxiliary basis: def2/J
F. Weigend, Phys. Chem. Chem. Phys. 8, 1057 (2006).
================================================================================
WARNINGS
Please study these warnings very carefully!
================================================================================
| 7> * ****END OF INPUT****
================================================================================
****************************
* Single Point Calculation *
****************************
---------------------------------
CARTESIAN COORDINATES (ANGSTROEM)
---------------------------------
C 0.000000 0.000000 -0.562211
H 0.000000 -0.924448 -1.101105
H -0.000000 0.924448 -1.101105
O 0.000000 0.000000 0.696189
----------------------------
CARTESIAN COORDINATES (A.U.)
----------------------------
NO LB ZA FRAG MASS X Y Z
0 C 6.0000 0 12.011 0.000000 0.000000 -1.062424
1 H 1.0000 0 1.008 0.000000 -1.746953 -2.080788
2 H 1.0000 0 1.008 -0.000000 1.746953 -2.080788
3 O 8.0000 0 15.999 0.000000 0.000000 1.315607
ORCA finished by error termination in GTOInt
Calling Command: mpiexec -np 4 D:\orca4\orca_gtoint_mpi.exe water.int.tmp water
[file orca_tools/qcmsg.cpp, line 458]:
.... aborting the run
--- An Ab Initio, DFT and Semiempirical electronic structure package ---
#######################################################
# -***- #
# Department of theory and spectroscopy #
# Directorship: Frank Neese #
# Max Planck Institute fuer Kohlenforschung #
# Kaiser Wilhelm Platz 1 #
# D-45470 Muelheim/Ruhr #
# Germany #
# #
# All rights reserved #
# -***- #
#######################################################
Program Version 4.2.0 - RELEASE -
With contributions from (in alphabetic order):
Daniel Aravena : Magnetic Suceptibility
Michael Atanasov : Ab Initio Ligand Field Theory (pilot matlab implementation)
Alexander A. Auer : GIAO ZORA, VPT2
Ute Becker : Parallelization
Giovanni Bistoni : ED, misc. LED, open-shell LED, HFLED
Martin Brehm : Molecular dynamics
Dmytro Bykov : SCF Hessian
Vijay G. Chilkuri : MRCI spin determinant printing, contributions to CSF-ICE
Dipayan Datta : RHF DLPNO-CCSD density
Achintya Kumar Dutta : EOM-CC, STEOM-CC
Dmitry Ganyushin : Spin-Orbit,Spin-Spin,Magnetic field MRCI
Miquel Garcia : C-PCM Hessian, Gaussian charge scheme
Yang Guo : DLPNO-NEVPT2, CIM, IAO-localization
Andreas Hansen : Spin unrestricted coupled pair/coupled cluster methods
Benjamin Helmich-Paris : CASSCF linear response (MC-RPA)
Lee Huntington : MR-EOM, pCC
Robert Izsak : Overlap fitted RIJCOSX, COSX-SCS-MP3, EOM
Christian Kollmar : KDIIS, OOCD, Brueckner-CCSD(T), CCSD density
Simone Kossmann : Meta GGA functionals, TD-DFT gradient, OOMP2, MP2 Hessian
Martin Krupicka : AUTO-CI
Lucas Lang : DCDCAS
Dagmar Lenk : GEPOL surface, SMD
Dimitrios Liakos : Extrapolation schemes; Compound Job, initial MDCI parallelization
Dimitrios Manganas : Further ROCIS development; embedding schemes
Dimitrios Pantazis : SARC Basis sets
Taras Petrenko : DFT Hessian,TD-DFT gradient, ASA, ECA, R-Raman, ABS, FL, XAS/XES, NRVS
Peter Pinski : DLPNO-MP2, DLPNO-MP2 Gradient
Christoph Reimann : Effective Core Potentials
Marius Retegan : Local ZFS, SOC
Christoph Riplinger : Optimizer, TS searches, QM/MM, DLPNO-CCSD(T), (RO)-DLPNO pert. Triples
Tobias Risthaus : Range-separated hybrids, TD-DFT gradient, RPA, STAB
Michael Roemelt : Original ROCIS implementation
Masaaki Saitow : Open-shell DLPNO-CCSD energy and density
Barbara Sandhoefer : DKH picture change effects
Avijit Sen : IP-ROCIS
Kantharuban Sivalingam : CASSCF convergence, NEVPT2, FIC-MRCI
Bernardo de Souza : ESD, SOC TD-DFT
Georgi Stoychev : AutoAux, RI-MP2 NMR
Willem Van den Heuvel : Paramagnetic NMR
Boris Wezisla : Elementary symmetry handling
Frank Wennmohs : Technical directorship
We gratefully acknowledge several colleagues who have allowed us to
interface, adapt or use parts of their codes:
Stefan Grimme, W. Hujo, H. Kruse, : VdW corrections, initial TS optimization,
C. Bannwarth DFT functionals, gCP, sTDA/sTD-DF
Ed Valeev, F. Pavosevic, A. Kumar : LibInt (2-el integral package), F12 methods
Garnet Chan, S. Sharma, J. Yang, R. Olivares : DMRG
Ulf Ekstrom : XCFun DFT Library
Mihaly Kallay : mrcc (arbitrary order and MRCC methods)
Andreas Klamt, Michael Diedenhofen : otool_cosmo (COSMO solvation model)
Jiri Pittner, Ondrej Demel : Mk-CCSD
Frank Weinhold : gennbo (NPA and NBO analysis)
Christopher J. Cramer and Donald G. Truhlar : smd solvation model
Lars Goerigk : TD-DFT with DH, B97 family of functionals
V. Asgeirsson, H. Jonsson : NEB implementation
FAccTs GmbH : IRC, NEB, NEB-TS, Multilevel, MM, QM/MM, CI optimization
S Lehtola, MJT Oliveira, MAL Marques : LibXC Library
Your calculation uses the libint2 library for the computation of 2-el integrals
For citations please refer to: http://libint.valeyev.net
Your ORCA version has been built with support for libXC version: 4.2.3
For citations please refer to: https://tddft.org/programs/libxc/
This ORCA versions uses:
CBLAS interface : Fast vector & matrix operations
LAPACKE interface : Fast linear algebra routines
----- Orbital basis set information -----
Your calculation utilizes the basis: def2-SVP
F. Weigend and R. Ahlrichs, Phys. Chem. Chem. Phys. 7, 3297 (2005).
----- AuxJ basis set information -----
Your calculation utilizes the auxiliary basis: def2/J
F. Weigend, Phys. Chem. Chem. Phys. 8, 1057 (2006).
================================================================================
WARNINGS
Please study these warnings very carefully!
================================================================================
| 7> * ****END OF INPUT****
================================================================================
****************************
* Single Point Calculation *
****************************
---------------------------------
CARTESIAN COORDINATES (ANGSTROEM)
---------------------------------
C 0.000000 0.000000 -0.562211
H 0.000000 -0.924448 -1.101105
H -0.000000 0.924448 -1.101105
O 0.000000 0.000000 0.696189
----------------------------
CARTESIAN COORDINATES (A.U.)
----------------------------
NO LB ZA FRAG MASS X Y Z
0 C 6.0000 0 12.011 0.000000 0.000000 -1.062424
1 H 1.0000 0 1.008 0.000000 -1.746953 -2.080788
2 H 1.0000 0 1.008 -0.000000 1.746953 -2.080788
3 O 8.0000 0 15.999 0.000000 0.000000 1.315607
ORCA finished by error termination in GTOInt
Calling Command: mpiexec -np 4 D:\orca4\orca_gtoint_mpi.exe water.int.tmp water
[file orca_tools/qcmsg.cpp, line 458]:
.... aborting the run