%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Yambo test suite ERRORs log
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 22-07
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[serial] - none
=--------------------------------------------------------------------------------=
H_chain/2.05/02_alda_r_space-serial-devel-rt-modularization  :  NO o-02_alda_r_space.eel_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/02_alda_r_space-serial-devel-rt-modularization  :  NO o-02_alda_r_space.eps_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/02_alda_r_space-serial-devel-rt-modularization  :  NO o-02_alda_r_space.jdos_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/03_BSE-serial-devel-rt-modularization  :  NO o-03_BSE.eel_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-serial-devel-rt-modularization  :  NO o-03_BSE.eps_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-serial-devel-rt-modularization  :  NO o-03_BSE.jdos_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-serial-devel-rt-modularization  :  NO o-03_BSE.ndb.em1s_fragment_1 in OUTPUT 
H_chain/2.05/03_BSE_RIM-serial-devel-rt-modularization  :  NO o-03_BSE_RIM.eel_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-serial-devel-rt-modularization  :  NO o-03_BSE_RIM.eps_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-serial-devel-rt-modularization  :  NO o-03_BSE_RIM.jdos_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-serial-devel-rt-modularization  :  NO o-03_BSE_RIM.ndb.em1s_fragment_1 in OUTPUT 
H_chain/2.05/04_LRC-serial-devel-rt-modularization  :  NO o-04_LRC.eel_q1_inv_LRC_dyson in OUTPUT 
H_chain/2.05/04_LRC-serial-devel-rt-modularization  :  NO o-04_LRC.eps_q1_inv_LRC_dyson in OUTPUT 
H_chain/2.5/03_BSE_RIM-serial-devel-rt-modularization  :  NO o-03_BSE_RIM.ndb.RIM in REFERENCE(s)  
MoS2/abinit/OPTICS/Without-SOC-sp1/01_MAP_SOC_WFs-serial-devel-rt-modularization  :  NO o-01_MAP_SOC_WFs.ndb.E_SOC_map in OUTPUT 
MoS2/abinit/OPTICS/Without-SOC-sp2/01_MAP_SOC_WFs-serial-devel-rt-modularization  :  NO o-01_MAP_SOC_WFs.ndb.E_SOC_map in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/20_p2y-serial-devel-rt-modularization/o-20_p2y.ns.atom_proj_pwscf_fragment_1  : At line 68 of file data.f90
Fortran runtime error: Bad real number in item 1 of list input

Error termination. Backtrace:
#0  0x14d18a1568da
#1  0x14d18a157395
#2  0x14d18a157b1a
#3  0x14d18a346f28
#4  0x14d18a34932d
#5  0x14d18a34a8f9
#6  0x5623dabc119f
#7  0x5623dabc799d
#8  0x5623dabcab2f
#9  0x14d189dbb09a
#10  0x5623dabbe2c9
#11  0xffffffffffffffff   
MoS2/P2Y/Without-SOC-sp2/20_p2y-serial-devel-rt-modularization/o-20_p2y.ns.atom_proj_pwscf_fragment_1  : At line 68 of file data.f90
Fortran runtime error: Bad real number in item 1 of list input

Error termination. Backtrace:
#0  0x14c7abf6a8da
#1  0x14c7abf6b395
#2  0x14c7abf6bb1a
#3  0x14c7ac15af28
#4  0x14c7ac15d32d
#5  0x14c7ac15e8f9
#6  0x555e128d019f
#7  0x555e128d699d
#8  0x555e128d9b2f
#9  0x14c7abbcf09a
#10  0x555e128cd2c9
#11  0xffffffffffffffff   
MoS2/P2Y/Without-SOC-sp2/25_pdos_Mo-serial-devel-rt-modularization/o-25_pdos_Mo.el_dos  : VALUE(#1)@COL#  2 is  0.23275E-10 [REF] vs     Infinity [OUT] corresponding to    Infinity [% RELATIVE TO MAX]   
MoS2/P2Y/Without-SOC-sp2/25_pdos_Mo_l-serial-devel-rt-modularization/o-25_pdos_Mo_l.el_dos  : VALUE(#1)@COL#  2 is  0.42708E-11 [REF] vs     Infinity [OUT] corresponding to    Infinity [% RELATIVE TO MAX]   
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:44:17 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 22-44
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)] - single, default parallelization
=--------------------------------------------------------------------------------=
H_chain/2.05/02_alda_r_space-Nmpi8-def_par-devel-rt-modularization  :  NO o-02_alda_r_space.eel_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/02_alda_r_space-Nmpi8-def_par-devel-rt-modularization  :  NO o-02_alda_r_space.eps_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/02_alda_r_space-Nmpi8-def_par-devel-rt-modularization  :  NO o-02_alda_r_space.jdos_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/03_BSE-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE.eel_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE.eps_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE.jdos_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE.ndb.em1s_fragment_1 in OUTPUT 
H_chain/2.05/03_BSE_RIM-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.eel_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.eps_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.jdos_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.ndb.em1s_fragment_1 in OUTPUT 
H_chain/2.05/04_LRC-Nmpi8-def_par-devel-rt-modularization  :  NO o-04_LRC.eel_q1_inv_LRC_dyson in OUTPUT 
H_chain/2.05/04_LRC-Nmpi8-def_par-devel-rt-modularization  :  NO o-04_LRC.eps_q1_inv_LRC_dyson in OUTPUT 
H_chain/2.5/03_BSE_RIM-Nmpi8-def_par-devel-rt-modularization  : FAILED (exit code 256)
H_chain/2.5/04_LRC-Nmpi8-def_par-devel-rt-modularization  : FAILED (exit code 256)
MoS2/abinit/OPTICS/Without-SOC-sp1/01_MAP_SOC_WFs-Nmpi8-def_par-devel-rt-modularization  :  NO o-01_MAP_SOC_WFs.ndb.E_SOC_map in OUTPUT 
MoS2/abinit/OPTICS/Without-SOC-sp1/08_RPA_no_LF_z_Covariant-Nmpi8-def_par-devel-rt-modularization  :  NO o-08_RPA_no_LF_z_Covariant.eel_q1_ip in OUTPUT 
MoS2/abinit/OPTICS/Without-SOC-sp1/08_RPA_no_LF_z_Covariant-Nmpi8-def_par-devel-rt-modularization  :  NO o-08_RPA_no_LF_z_Covariant.eps_q1_ip in OUTPUT 
MoS2/abinit/OPTICS/Without-SOC-sp2/01_MAP_SOC_WFs-Nmpi8-def_par-devel-rt-modularization  :  NO o-01_MAP_SOC_WFs.ndb.E_SOC_map in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/20_p2y-Nmpi8-def_par-devel-rt-modularization/o-20_p2y.ns.atom_proj_pwscf_fragment_1  : At line 68 of file data.f90
Fortran runtime error: Bad real number in item 1 of list input

Error termination. Backtrace:
#0  0x15057874c8da
#1  0x15057874d395
#2  0x15057874db1a
#3  0x15057893cf28
#4  0x15057893f32d
#5  0x1505789408f9
#6  0x55901882419f
#7  0x55901882a99d
#8  0x55901882db2f
#9  0x1505783b109a
#10  0x5590188212c9
#11  0xffffffffffffffff   
MoS2/P2Y/Without-SOC-sp1/23_RPA_no_LF-Nmpi8-def_par-devel-rt-modularization  :  NO o-23_RPA_no_LF.eel_q1_ip_01 in REFERENCE(s)  
MoS2/P2Y/Without-SOC-sp1/23_RPA_no_LF-Nmpi8-def_par-devel-rt-modularization  :  NO o-23_RPA_no_LF.eps_q1_ip_01 in REFERENCE(s)  
MoS2/P2Y/Without-SOC-sp2/20_p2y-Nmpi8-def_par-devel-rt-modularization/o-20_p2y.ns.atom_proj_pwscf_fragment_1  : At line 68 of file data.f90
Fortran runtime error: Bad real number in item 1 of list input

Error termination. Backtrace:
#0  0x154e83dcf8da
#1  0x154e83dd0395
#2  0x154e83dd0b1a
#3  0x154e83fbff28
#4  0x154e83fc232d
#5  0x154e83fc38f9
#6  0x55747d78219f
#7  0x55747d78899d
#8  0x55747d78bb2f
#9  0x154e83a3409a
#10  0x55747d77f2c9
#11  0xffffffffffffffff   
MoS2/P2Y/Without-SOC-sp2/23_RPA_no_LF-Nmpi8-def_par-devel-rt-modularization  :  NO o-23_RPA_no_LF.eel_q1_ip_01 in REFERENCE(s)  
MoS2/P2Y/Without-SOC-sp2/23_RPA_no_LF-Nmpi8-def_par-devel-rt-modularization  :  NO o-23_RPA_no_LF.eps_q1_ip_01 in REFERENCE(s)  
MoS2/P2Y/Without-SOC-sp2/25_pdos_Mo-Nmpi8-def_par-devel-rt-modularization/o-25_pdos_Mo.el_dos  : VALUE(#1)@COL#  2 is  0.23275E-10 [REF] vs     Infinity [OUT] corresponding to    Infinity [% RELATIVE TO MAX]   
MoS2/P2Y/Without-SOC-sp2/25_pdos_Mo_l-Nmpi8-def_par-devel-rt-modularization/o-25_pdos_Mo_l.el_dos  : VALUE(#1)@COL#  2 is  0.42708E-11 [REF] vs     Infinity [OUT] corresponding to    Infinity [% RELATIVE TO MAX]   
Si_bulk/ELPH/OPTICS/01_em1s-Nmpi8-def_par-devel-rt-modularization  : FAILED (exit code 256)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:21:31 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-05
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)] - single, random parallelization
=--------------------------------------------------------------------------------=
H_chain/2.05/02_alda_r_space-Nmpi8-rand_par-devel-rt-modularization  :  NO o-02_alda_r_space.eel_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/02_alda_r_space-Nmpi8-rand_par-devel-rt-modularization  :  NO o-02_alda_r_space.eps_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/02_alda_r_space-Nmpi8-rand_par-devel-rt-modularization  :  NO o-02_alda_r_space.jdos_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/03_BSE-Nmpi8-rand_par-devel-rt-modularization  :  NO o-03_BSE.eel_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Nmpi8-rand_par-devel-rt-modularization  :  NO o-03_BSE.eps_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Nmpi8-rand_par-devel-rt-modularization  :  NO o-03_BSE.jdos_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Nmpi8-rand_par-devel-rt-modularization  :  NO o-03_BSE.ndb.em1s_fragment_1 in OUTPUT 
H_chain/2.05/03_BSE_RIM-Nmpi8-rand_par-devel-rt-modularization  :  NO o-03_BSE_RIM.eel_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Nmpi8-rand_par-devel-rt-modularization  :  NO o-03_BSE_RIM.eps_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Nmpi8-rand_par-devel-rt-modularization  :  NO o-03_BSE_RIM.jdos_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Nmpi8-rand_par-devel-rt-modularization  :  NO o-03_BSE_RIM.ndb.em1s_fragment_1 in OUTPUT 
H_chain/2.05/04_LRC-Nmpi8-rand_par-devel-rt-modularization  :  NO o-04_LRC.eel_q1_inv_LRC_dyson in OUTPUT 
H_chain/2.05/04_LRC-Nmpi8-rand_par-devel-rt-modularization  :  NO o-04_LRC.eps_q1_inv_LRC_dyson in OUTPUT 
H_chain/2.5/03_BSE_RIM-Nmpi8-rand_par-devel-rt-modularization  : FAILED (exit code 256)
H_chain/2.5/04_LRC-Nmpi8-rand_par-devel-rt-modularization  : FAILED (exit code 256)
MoS2/abinit/OPTICS/With-SOC/06_RPA_no_LF_x_noVnl-Nmpi8-rand_par-devel-rt-modularization  : FAILED (exit code 256)
MoS2/abinit/OPTICS/Without-SOC-sp1/01_MAP_SOC_WFs-Nmpi8-rand_par-devel-rt-modularization  :  NO o-01_MAP_SOC_WFs.ndb.E_SOC_map in OUTPUT 
MoS2/abinit/OPTICS/Without-SOC-sp1/06_RPA_no_LF_x_noVnl-Nmpi8-rand_par-devel-rt-modularization  : FAILED (exit code 256)
MoS2/abinit/OPTICS/Without-SOC-sp1/06_RPA_no_LF_x_shifted_grids-Nmpi8-rand_par-devel-rt-modularization  : FAILED (exit code 256)
MoS2/abinit/OPTICS/Without-SOC-sp1/08_RPA_no_LF_z_Covariant-Nmpi8-rand_par-devel-rt-modularization  :  NO o-08_RPA_no_LF_z_Covariant.eel_q1_ip in OUTPUT 
MoS2/abinit/OPTICS/Without-SOC-sp1/08_RPA_no_LF_z_Covariant-Nmpi8-rand_par-devel-rt-modularization  :  NO o-08_RPA_no_LF_z_Covariant.eps_q1_ip in OUTPUT 
MoS2/abinit/OPTICS/Without-SOC-sp2/01_MAP_SOC_WFs-Nmpi8-rand_par-devel-rt-modularization  :  NO o-01_MAP_SOC_WFs.ndb.E_SOC_map in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/20_p2y-Nmpi8-rand_par-devel-rt-modularization/o-20_p2y.ns.atom_proj_pwscf_fragment_1  : At line 68 of file data.f90
Fortran runtime error: Bad real number in item 1 of list input

Error termination. Backtrace:
#0  0x14d7ae9fe8da
#1  0x14d7ae9ff395
#2  0x14d7ae9ffb1a
#3  0x14d7aebeef28
#4  0x14d7aebf132d
#5  0x14d7aebf28f9
#6  0x562c7c4b319f
#7  0x562c7c4b999d
#8  0x562c7c4bcb2f
#9  0x14d7ae66309a
#10  0x562c7c4b02c9
#11  0xffffffffffffffff   
MoS2/P2Y/Without-SOC-sp2/20_p2y-Nmpi8-rand_par-devel-rt-modularization/o-20_p2y.ns.atom_proj_pwscf_fragment_1  : At line 68 of file data.f90
Fortran runtime error: Bad real number in item 1 of list input

Error termination. Backtrace:
#0  0x1539c2c448da
#1  0x1539c2c45395
#2  0x1539c2c45b1a
#3  0x1539c2e34f28
#4  0x1539c2e3732d
#5  0x1539c2e388f9
#6  0x56382280619f
#7  0x56382280c99d
#8  0x56382280fb2f
#9  0x1539c28a909a
#10  0x5638228032c9
#11  0xffffffffffffffff   
MoS2/P2Y/Without-SOC-sp2/25_pdos_Mo-Nmpi8-rand_par-devel-rt-modularization/o-25_pdos_Mo.el_dos  : VALUE(#1)@COL#  2 is  0.23275E-10 [REF] vs     Infinity [OUT] corresponding to    Infinity [% RELATIVE TO MAX]   
MoS2/P2Y/Without-SOC-sp2/25_pdos_Mo_l-Nmpi8-rand_par-devel-rt-modularization/o-25_pdos_Mo_l.el_dos  : VALUE(#1)@COL#  2 is  0.42708E-11 [REF] vs     Infinity [OUT] corresponding to    Infinity [% RELATIVE TO MAX]   
Si_bulk/ELPH/OPTICS/01_em1s-Nmpi8-rand_par-devel-rt-modularization  : FAILED (exit code 256)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:24:18 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-30
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)(SLK=4)] - single, default parallelization
=--------------------------------------------------------------------------------=
H_chain/2.05/02_alda_r_space-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-02_alda_r_space.eel_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/02_alda_r_space-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-02_alda_r_space.eps_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/02_alda_r_space-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-02_alda_r_space.jdos_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/03_BSE-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE.eel_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE.eps_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE.jdos_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE.ndb.em1s_fragment_1 in OUTPUT 
H_chain/2.05/03_BSE_RIM-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.eel_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.eps_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.jdos_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.ndb.em1s_fragment_1 in OUTPUT 
H_chain/2.05/04_LRC-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-04_LRC.eel_q1_inv_LRC_dyson in OUTPUT 
H_chain/2.05/04_LRC-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-04_LRC.eps_q1_inv_LRC_dyson in OUTPUT 
H_chain/2.5/03_BSE_RIM-Slk4-Nmpi8-def_par-devel-rt-modularization  : FAILED (exit code 256)
H_chain/2.5/04_LRC-Slk4-Nmpi8-def_par-devel-rt-modularization  : FAILED (exit code 256)
MoS2/abinit/OPTICS/Without-SOC-sp1/01_MAP_SOC_WFs-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-01_MAP_SOC_WFs.ndb.E_SOC_map in OUTPUT 
MoS2/abinit/OPTICS/Without-SOC-sp1/08_RPA_no_LF_z_Covariant-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-08_RPA_no_LF_z_Covariant.eel_q1_ip in OUTPUT 
MoS2/abinit/OPTICS/Without-SOC-sp1/08_RPA_no_LF_z_Covariant-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-08_RPA_no_LF_z_Covariant.eps_q1_ip in OUTPUT 
MoS2/abinit/OPTICS/Without-SOC-sp2/01_MAP_SOC_WFs-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-01_MAP_SOC_WFs.ndb.E_SOC_map in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/20_p2y-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-20_p2y.ns.atom_proj_pwscf_fragment_1 in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/20_p2y-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-20_p2y.ns.kb_pp_pwscf_fragment_1 in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/20_p2y-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-20_p2y.ns.wf_fragments_1_1 in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/22_HF-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-22_HF.hf in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/22_HF-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-22_HF.ndb.HF_and_locXC in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/23_RPA_no_LF-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-23_RPA_no_LF.eel_q1_ip in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/23_RPA_no_LF-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-23_RPA_no_LF.eel_q2_ip in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/23_RPA_no_LF-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-23_RPA_no_LF.eps_q1_ip in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/23_RPA_no_LF-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-23_RPA_no_LF.eps_q2_ip in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/25_pdos_Mo-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-25_pdos_Mo.el_dos in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/25_pdos_Mo_l-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-25_pdos_Mo_l.el_dos in OUTPUT 
MoS2/P2Y/Without-SOC-sp2/20_p2y-Slk4-Nmpi8-def_par-devel-rt-modularization/o-20_p2y.ns.atom_proj_pwscf_fragment_1  : At line 68 of file data.f90
Fortran runtime error: Bad real number in item 1 of list input

Error termination. Backtrace:
#0  0x146959f898da
#1  0x146959f8a395
#2  0x146959f8ab1a
#3  0x14695a179f28
#4  0x14695a17c32d
#5  0x14695a17d8f9
#6  0x5579ca57219f
#7  0x5579ca57899d
#8  0x5579ca57bb2f
#9  0x146959bee09a
#10  0x5579ca56f2c9
#11  0xffffffffffffffff   
MoS2/P2Y/Without-SOC-sp2/23_RPA_no_LF-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-23_RPA_no_LF.eel_q1_ip_01 in REFERENCE(s)  
MoS2/P2Y/Without-SOC-sp2/23_RPA_no_LF-Slk4-Nmpi8-def_par-devel-rt-modularization  :  NO o-23_RPA_no_LF.eps_q1_ip_01 in REFERENCE(s)  
MoS2/P2Y/Without-SOC-sp2/25_pdos_Mo-Slk4-Nmpi8-def_par-devel-rt-modularization/o-25_pdos_Mo.el_dos  : VALUE(#1)@COL#  2 is  0.23275E-10 [REF] vs     Infinity [OUT] corresponding to    Infinity [% RELATIVE TO MAX]   
MoS2/P2Y/Without-SOC-sp2/25_pdos_Mo_l-Slk4-Nmpi8-def_par-devel-rt-modularization/o-25_pdos_Mo_l.el_dos  : VALUE(#1)@COL#  2 is  0.42708E-11 [REF] vs     Infinity [OUT] corresponding to    Infinity [% RELATIVE TO MAX]   
Si_bulk/ELPH/OPTICS/01_em1s-Slk4-Nmpi8-def_par-devel-rt-modularization  : FAILED (exit code 256)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:21:50 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-51
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=2)(Threads=2)(SLK=4)] - single, default parallelization
=--------------------------------------------------------------------------------=
H_chain/2.05/02_alda_r_space-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-02_alda_r_space.eel_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/02_alda_r_space-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-02_alda_r_space.eps_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/02_alda_r_space-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-02_alda_r_space.jdos_q1_diago_alda_bse in OUTPUT 
H_chain/2.05/03_BSE-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-03_BSE.eel_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-03_BSE.eps_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-03_BSE.jdos_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-03_BSE.ndb.em1s_fragment_1 in OUTPUT 
H_chain/2.05/03_BSE_RIM-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.eel_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.eps_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.jdos_q1_diago_bse in OUTPUT 
H_chain/2.05/03_BSE_RIM-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-03_BSE_RIM.ndb.em1s_fragment_1 in OUTPUT 
H_chain/2.05/04_LRC-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-04_LRC.eel_q1_inv_LRC_dyson in OUTPUT 
H_chain/2.05/04_LRC-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-04_LRC.eps_q1_inv_LRC_dyson in OUTPUT 
H_chain/2.5/03_BSE_RIM-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : FAILED (exit code 256)
H_chain/2.5/04_LRC-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : FAILED (exit code 256)
hBN/GW-OPTICS/06_ypp_sort-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_ypp_sort.exc_qpt1_E_sorted  : VALUE(#4)@COL#  2 is  0.92257     [REF] vs   1.0000     [OUT] corresponding to  7.7428     [% RELATIVE TO MAX]   
hBN/GW-OPTICS/06_ypp_sort-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_ypp_sort.exc_qpt1_I_sorted  : VALUE(#3)@COL#  2 is  0.92257     [REF] vs  0.97820     [OUT] corresponding to  5.5627     [% RELATIVE TO MAX]   
Iron/pwscf/Without-SOC/02_EPS-IP_shifted_grids_G-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_EPS-IP_shifted_grids_G.eel_q1_ip  : VALUE(#109)@COL#  2 is  0.28700E-02 [REF] vs  0.15470E-02 [OUT] corresponding to  22.481     [% RELATIVE TO MAX]   
Iron/pwscf/Without-SOC/02_EPS-IP_shifted_grids_G-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_EPS-IP_shifted_grids_G.eps_q1_ip  : VALUE(#109)@COL#  3 is   166.86     [REF] vs   292.62     [OUT] corresponding to  41.016     [% RELATIVE TO MAX]   
MoS2/abinit/OPTICS/Without-SOC-sp1/01_MAP_SOC_WFs-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-01_MAP_SOC_WFs.ndb.E_SOC_map in OUTPUT 
MoS2/abinit/OPTICS/Without-SOC-sp2/01_MAP_SOC_WFs-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  :  NO o-01_MAP_SOC_WFs.ndb.E_SOC_map in OUTPUT 
MoS2/P2Y/Without-SOC-sp1/20_p2y-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-20_p2y.ns.atom_proj_pwscf_fragment_1  : At line 68 of file data.f90
Fortran runtime error: Bad real number in item 1 of list input

Error termination. Backtrace:
#0  0x154f026328da
#1  0x154f02633395
#2  0x154f02633b1a
#3  0x154f02822f28
#4  0x154f0282532d
#5  0x154f028268f9
#6  0x562ba265419f
#7  0x562ba265a99d
#8  0x562ba265db2f
#9  0x154f0229709a
#10  0x562ba26512c9
#11  0xffffffffffffffff   
MoS2/P2Y/Without-SOC-sp2/20_p2y-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-20_p2y.ns.atom_proj_pwscf_fragment_1  : At line 68 of file data.f90
Fortran runtime error: Bad real number in item 1 of list input

Error termination. Backtrace:
#0  0x15215dcfb8da
#1  0x15215dcfc395
#2  0x15215dcfcb1a
#3  0x15215deebf28
#4  0x15215deee32d
#5  0x15215deef8f9
#6  0x55771209919f
#7  0x55771209f99d
#8  0x5577120a2b2f
#9  0x15215d96009a
#10  0x5577120962c9
#11  0xffffffffffffffff   
MoS2/P2Y/Without-SOC-sp2/25_pdos_Mo-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-25_pdos_Mo.el_dos  : VALUE(#1)@COL#  2 is  0.23275E-10 [REF] vs     Infinity [OUT] corresponding to    Infinity [% RELATIVE TO MAX]   
MoS2/P2Y/Without-SOC-sp2/25_pdos_Mo_l-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-25_pdos_Mo_l.el_dos  : VALUE(#1)@COL#  2 is  0.42708E-11 [REF] vs     Infinity [OUT] corresponding to    Infinity [% RELATIVE TO MAX]   
Si_bulk/ELPH/OPTICS/01_em1s-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : FAILED (exit code 256)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:27:58 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

% TOTAL   Duration : 2:19:54 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%




%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Yambo test suite SKIPs log
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 22-07
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[serial] - none
=--------------------------------------------------------------------------------=
MoS2/abinit/OPTICS/Without-SOC-sp1/04_BSE_SLEPC_pert_SOC-serial-devel-rt-modularization  : Source-Run FAILED
MoS2/abinit/OPTICS/Without-SOC-sp1/04_BSE_pert_SOC-serial-devel-rt-modularization  : Source-Run FAILED
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:44:17 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 22-44
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)] - single, default parallelization
=--------------------------------------------------------------------------------=
hBN/NL/small/02_linear_optics_ip-Nmpi8-def_par-devel-rt-modularization  : WRONG CPU configuration
hBN/NL/small/02_ypp_lin-Nmpi8-def_par-devel-rt-modularization  : Source-Run SKIPPED
hBN/NL/small/10_linear_optics_dip_ip-Nmpi8-def_par-devel-rt-modularization  : WRONG CPU configuration
He/GW/01_hf-Nmpi8-def_par-devel-rt-modularization  : WRONG CPU configuration
He/P2Y/02_HF-Nmpi8-def_par-devel-rt-modularization  : WRONG CPU configuration
MoS2/abinit/OPTICS/Without-SOC-sp1/04_BSE_SLEPC_pert_SOC-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
MoS2/abinit/OPTICS/Without-SOC-sp1/04_BSE_pert_SOC-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/02_bse-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/03_bse_dbgd-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/04_bse_dbgd_0K-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/05_bse_dbgd_297K-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/06_bse_dbgd_465K-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-def_par-devel-rt-modularization  : 00_init                                            skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-def_par-devel-rt-modularization  : 01_fix_symm                                        skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-def_par-devel-rt-modularization  : 01_init                                            skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-def_par-devel-rt-modularization  : 02_sc_magnetic                                     skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-def_par-devel-rt-modularization  : 02_sc_magnetic+qp                                  skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-def_par-devel-rt-modularization  : 03_gw                                              skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-def_par-devel-rt-modularization  : 03_gw_magnetic                                     skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-def_par-devel-rt-modularization  : 04_bse                                             skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-def_par-devel-rt-modularization  : 04_bse_magnetic                                    skipped (MAGNETIC tests not working in parallel)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:21:31 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-05
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)] - single, random parallelization
=--------------------------------------------------------------------------------=
hBN/NL/small/02_linear_optics_ip-Nmpi8-rand_par-devel-rt-modularization  : FAILED CPU configuration
hBN/NL/small/02_ypp_lin-Nmpi8-rand_par-devel-rt-modularization  : Source-Run SKIPPED
hBN/NL/small/10_linear_optics_dip_ip-Nmpi8-rand_par-devel-rt-modularization  : FAILED CPU configuration
He/GW/01_hf-Nmpi8-rand_par-devel-rt-modularization  : FAILED CPU configuration
He/P2Y/02_HF-Nmpi8-rand_par-devel-rt-modularization  : FAILED CPU configuration
MoS2/abinit/OPTICS/Without-SOC-sp1/04_BSE_SLEPC_pert_SOC-Nmpi8-rand_par-devel-rt-modularization  : Source-Run FAILED
MoS2/abinit/OPTICS/Without-SOC-sp1/04_BSE_pert_SOC-Nmpi8-rand_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/02_bse-Nmpi8-rand_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/03_bse_dbgd-Nmpi8-rand_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/04_bse_dbgd_0K-Nmpi8-rand_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/05_bse_dbgd_297K-Nmpi8-rand_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/06_bse_dbgd_465K-Nmpi8-rand_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-rand_par-devel-rt-modularization  : 00_init                                            skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-rand_par-devel-rt-modularization  : 01_fix_symm                                        skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-rand_par-devel-rt-modularization  : 01_init                                            skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-rand_par-devel-rt-modularization  : 02_sc_magnetic                                     skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-rand_par-devel-rt-modularization  : 02_sc_magnetic+qp                                  skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-rand_par-devel-rt-modularization  : 03_gw                                              skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-rand_par-devel-rt-modularization  : 03_gw_magnetic                                     skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-rand_par-devel-rt-modularization  : 04_bse                                             skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Nmpi8-rand_par-devel-rt-modularization  : 04_bse_magnetic                                    skipped (MAGNETIC tests not working in parallel)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:24:18 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-30
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)(SLK=4)] - single, default parallelization
=--------------------------------------------------------------------------------=
hBN/NL/small/02_linear_optics_ip-Slk4-Nmpi8-def_par-devel-rt-modularization  : WRONG CPU configuration
hBN/NL/small/02_ypp_lin-Slk4-Nmpi8-def_par-devel-rt-modularization  : Source-Run SKIPPED
hBN/NL/small/10_linear_optics_dip_ip-Slk4-Nmpi8-def_par-devel-rt-modularization  : WRONG CPU configuration
He/GW/01_hf-Slk4-Nmpi8-def_par-devel-rt-modularization  : WRONG CPU configuration
He/P2Y/02_HF-Slk4-Nmpi8-def_par-devel-rt-modularization  : WRONG CPU configuration
MoS2/abinit/OPTICS/Without-SOC-sp1/04_BSE_SLEPC_pert_SOC-Slk4-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
MoS2/abinit/OPTICS/Without-SOC-sp1/04_BSE_pert_SOC-Slk4-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/02_bse-Slk4-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/03_bse_dbgd-Slk4-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/04_bse_dbgd_0K-Slk4-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/05_bse_dbgd_297K-Slk4-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/06_bse_dbgd_465K-Slk4-Nmpi8-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Slk4-Nmpi8-def_par-devel-rt-modularization  : 00_init                                            skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Slk4-Nmpi8-def_par-devel-rt-modularization  : 01_fix_symm                                        skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Slk4-Nmpi8-def_par-devel-rt-modularization  : 01_init                                            skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Slk4-Nmpi8-def_par-devel-rt-modularization  : 02_sc_magnetic                                     skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Slk4-Nmpi8-def_par-devel-rt-modularization  : 02_sc_magnetic+qp                                  skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Slk4-Nmpi8-def_par-devel-rt-modularization  : 03_gw                                              skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Slk4-Nmpi8-def_par-devel-rt-modularization  : 03_gw_magnetic                                     skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Slk4-Nmpi8-def_par-devel-rt-modularization  : 04_bse                                             skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Slk4-Nmpi8-def_par-devel-rt-modularization  : 04_bse_magnetic                                    skipped (MAGNETIC tests not working in parallel)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:21:50 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-51
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=2)(Threads=2)(SLK=4)] - single, default parallelization
=--------------------------------------------------------------------------------=
He/GW/01_hf-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : WRONG CPU configuration
He/P2Y/02_HF-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : WRONG CPU configuration
MoS2/abinit/OPTICS/Without-SOC-sp1/04_BSE_SLEPC_pert_SOC-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : Source-Run FAILED
MoS2/abinit/OPTICS/Without-SOC-sp1/04_BSE_pert_SOC-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/02_bse-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/03_bse_dbgd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/04_bse_dbgd_0K-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/05_bse_dbgd_297K-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/ELPH/OPTICS/06_bse_dbgd_465K-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : Source-Run FAILED
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : 00_init                                            skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : 01_fix_symm                                        skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : 01_init                                            skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : 02_sc_magnetic                                     skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : 02_sc_magnetic+qp                                  skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : 03_gw                                              skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : 03_gw_magnetic                                     skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : 04_bse                                             skipped (MAGNETIC tests not working in parallel)
Si_bulk/MAGNETIC/10_IP-RPA_len_dir_G-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization  : 04_bse_magnetic                                    skipped (MAGNETIC tests not working in parallel)
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:27:58 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

% TOTAL   Duration : 2:19:54 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%




%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Yambo test suite WHITELISTED files log
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 22-07
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[serial] - none
=--------------------------------------------------------------------------------=
AlAs/RT/03_rt_delta_ip_adaptative-serial-devel-rt-modularization/o-03_rt_delta_ip_adaptative.energy  : VALUE(#42) @COL#  3 is  0.59278E-08 [REF] vs  0.48358E-08 [OUT] corresponding to  13.251     [% RELATIVE TO MAX]   
AlAs/RT/03_rt_delta_ip_adaptative_cache-serial-devel-rt-modularization/o-03_rt_delta_ip_adaptative_cache.energy  : VALUE(#44) @COL#  3 is  0.52966E-08 [REF] vs  0.45399E-08 [OUT] corresponding to  9.1814     [% RELATIVE TO MAX]   
AlAs/RT/04_rt_delta_ip_adaptative_cache_restart-serial-devel-rt-modularization/o-04_rt_delta_ip_adaptative_cache_restart.energy  : VALUE(#2) @COL#  2 is -0.13159E-08 [REF] vs -0.11561E-08 [OUT] corresponding to  11.883     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip-serial-devel-rt-modularization/o-03_td_ip.energy  : VALUE(#190) @COL#  3 is  0.60165E-08 [REF] vs  0.65335E-08 [OUT] corresponding to  6.1851     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip+qp-serial-devel-rt-modularization/o-03_td_ip+qp.energy  : VALUE(#197) @COL#  3 is  0.61150E-08 [REF] vs  0.66765E-08 [OUT] corresponding to  6.5241     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip+qp_vel-serial-devel-rt-modularization/o-03_td_ip+qp_vel.energy  : VALUE(#197) @COL#  2 is -0.43507E-08 [REF] vs -0.48548E-08 [OUT] corresponding to  5.3706     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip_radiative-serial-devel-rt-modularization/o-03_td_ip_radiative.thermodynamics  : VALUE(#2) @COL#  9 is   25273.     [REF] vs   23759.     [OUT] corresponding to  5.9931     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip_vel-serial-devel-rt-modularization/o-03_td_ip_vel.energy  : VALUE(#94) @COL#  2 is -0.49251E-08 [REF] vs -0.53877E-08 [OUT] corresponding to  5.1544     [% RELATIVE TO MAX]   
hBN/RT/04_td_har_coll-serial-devel-rt-modularization/o-04_td_har_coll.energy  : VALUE(#167) @COL#  3 is  0.19312E-08 [REF] vs  0.13729E-08 [OUT] corresponding to  8.6284     [% RELATIVE TO MAX]   
hBN/RT/04_td_hartree-serial-devel-rt-modularization/o-04_td_hartree.energy  : VALUE(#91) @COL#  3 is  0.55319E-08 [REF] vs  0.60106E-08 [OUT] corresponding to  7.3816     [% RELATIVE TO MAX]   
hBN/RT/04_td_hdft-serial-devel-rt-modularization/o-04_td_hdft.energy  : VALUE(#139) @COL#  3 is -0.38772E-06 [REF] vs  0.10487E-06 [OUT] corresponding to  110.46     [% RELATIVE TO MAX]   
hBN/RT/04_td_hdft_coll-serial-devel-rt-modularization/o-04_td_hdft_coll.energy  : VALUE(#172) @COL#  3 is  0.38569E-08 [REF] vs  0.44646E-08 [OUT] corresponding to  8.9406     [% RELATIVE TO MAX]   
hBN/RT/05_td_hf-serial-devel-rt-modularization/o-05_td_hf.energy  : VALUE(#18) @COL#  3 is  0.12058E-07 [REF] vs  0.64530E-11 [OUT] corresponding to  99.946     [% RELATIVE TO MAX]   
hBN/RT/05_td_hf_fonly_coll-serial-devel-rt-modularization/o-05_td_hf_fonly_coll.energy  : VALUE(#18) @COL#  3 is  0.11997E-07 [REF] vs  0.92629E-08 [OUT] corresponding to  22.788     [% RELATIVE TO MAX]   
hBN/RT/07_td_sex_restart-serial-devel-rt-modularization/o-07_td_sex_restart.energy  : VALUE(#28) @COL#  3 is  0.52559E-05 [REF] vs -0.32357E-05 [OUT] corresponding to  101.92     [% RELATIVE TO MAX]   
hBN/RT/07_td_sex_restart-serial-devel-rt-modularization/o-07_td_sex_restart.thermodynamics  : VALUE(#1) @COL#  9 is   429.00     [REF] vs   348.57     [OUT] corresponding to  18.552     [% RELATIVE TO MAX]   
hBN/RT/11_td_sex_dbgd-serial-devel-rt-modularization/o-11_td_sex_dbgd.energy  : VALUE(#197) @COL#  3 is -0.44061E-05 [REF] vs  0.21058E-05 [OUT] corresponding to  147.79     [% RELATIVE TO MAX]   
hBN/RT/11_td_sex_dbgd-serial-devel-rt-modularization/o-11_td_sex_dbgd.thermodynamics  : VALUE(#2) @COL# 10 is   1859.6     [REF] vs  0.14332E+06 [OUT] corresponding to  7607.2     [% RELATIVE TO MAX]   
hBN/RT/15_td_ip_dbgd-serial-devel-rt-modularization/o-15_td_ip_dbgd.energy  : VALUE(#29) @COL#  3 is  0.11439E-07 [REF] vs  0.27867E-08 [OUT] corresponding to  74.438     [% RELATIVE TO MAX]   
hBN/RT/15_td_ip_dbgd-serial-devel-rt-modularization/o-15_td_ip_dbgd.thermodynamics  : VALUE(#2) @COL# 10 is   1888.3     [REF] vs  0.14521E+06 [OUT] corresponding to  7590.2     [% RELATIVE TO MAX]   
Iron/abinit/Without-SOC/05_KERR_IP-RPA_vel-serial-devel-rt-modularization/o-05_KERR_IP-RPA_vel.off_q1_IP  : VALUE(#7) @COL#  2 is  0.50000E-02 [REF] vs  0.49511E-02 [OUT] corresponding to  24.447     [% RELATIVE TO MAX]   
MoS2/pwscf/OPTICS/With-SOC/05_exciton_spin-serial-devel-rt-modularization/o-05_exciton_spin.exc_qpt1_I+spin_sorted  : VALUE(#16) @COL#  3 is   4.0000     [REF] vs   114.00     [OUT] corresponding to  57.895     [% RELATIVE TO MAX]   
MoS2/pwscf/OPTICS/Without-SOC-sp2/05_exciton_spin-serial-devel-rt-modularization/o-05_exciton_spin.exc_qpt1_I+spin_sorted  : VALUE(#2) @COL#  4 is  0.90966     [REF] vs  0.52452E-05 [OUT] corresponding to  99.999     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-serial-devel-rt-modularization/o-04_td_dft.energy  : VALUE(#72) @COL#  3 is  0.87334E-05 [REF] vs -0.42056E-05 [OUT] corresponding to  104.35     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-serial-devel-rt-modularization/o-04_td_dft.magnetization  : VALUE(#  34) @AVERAGE# is  0.17305E-08 [REF] vs -0.84889E-09 [OUT] corresponding to  70.122     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-serial-devel-rt-modularization/o-04_td_dft.thermodynamics  : VALUE(#4) @COL#  8 is   728.47     [REF] vs   826.18     [OUT] corresponding to  11.457     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip-serial-devel-rt-modularization/o-04_td_ip.thermodynamics  : VALUE(#12) @COL#  8 is   674.82     [REF] vs   756.21     [OUT] corresponding to  10.578     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_DbGd-serial-devel-rt-modularization/o-04_td_ip_DbGd.energy  : VALUE(#39) @COL#  3 is  0.86574E-04 [REF] vs  0.61149E-06 [OUT] corresponding to  99.294     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_DbGd-serial-devel-rt-modularization/o-04_td_ip_DbGd.thermodynamics  : VALUE(#76) @COL#  8 is   763.55     [REF] vs   9815.3     [OUT] corresponding to  1082.0     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_vel-serial-devel-rt-modularization/o-04_td_ip_vel.thermodynamics  : VALUE(#21) @COL#  8 is   792.45     [REF] vs   884.59     [OUT] corresponding to  10.273     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex-serial-devel-rt-modularization/o-06_td_sex.energy  : VALUE(#63) @COL#  3 is  0.17655E-05 [REF] vs  0.24761E-05 [OUT] corresponding to  10.770     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex-serial-devel-rt-modularization/o-06_td_sex.thermodynamics  : VALUE(#61) @COL#  8 is   1101.7     [REF] vs   1249.6     [OUT] corresponding to  11.835     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_DbGd-serial-devel-rt-modularization/o-06_td_sex_DbGd.energy  : VALUE(#47) @COL#  3 is  0.89885E-04 [REF] vs -0.23626E-05 [OUT] corresponding to  102.63     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_DbGd-serial-devel-rt-modularization/o-06_td_sex_DbGd.thermodynamics  : VALUE(#4) @COL#  8 is   1119.1     [REF] vs   18924.     [OUT] corresponding to  1415.4     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_on_the_fly-serial-devel-rt-modularization/o-06_td_sex_on_the_fly.energy  : VALUE(#32) @COL#  3 is  0.11659E-05 [REF] vs  0.14662E-05 [OUT] corresponding to  9.9919     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ep-serial-devel-rt-modularization/o-07_ep.thermodynamics  : VALUE(#3) @COL#  8 is   1080.4     [REF] vs   961.31     [OUT] corresponding to  6.6099     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_E_Fermi  : VALUE(#3) @COL#  4 is  0.23300     [REF] vs  0.22718E+07 [OUT] corresponding to 0.24984E+08 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#1) @COL#  3 is   0.0000     [REF] vs  0.99998     [OUT] corresponding to 0.49999E+06 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#729) @COL#  4 is  0.93404E-05 [REF] vs   1.0000     [OUT] corresponding to  99.999     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#1000) @COL#  5 is -0.87738E-04 [REF] vs -0.69320E-03 [OUT] corresponding to  690.08     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#1000) @COL#  2 is -0.61035E-04 [REF] vs -0.48554E-03 [OUT] corresponding to  695.51     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_electrons_1_of_2  : VALUE(#587) @COL#  4 is  0.89952     [REF] vs  0.13777     [OUT] corresponding to  76.175     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_electrons_2_of_2  : VALUE(#597) @COL#  3 is   1.0000     [REF] vs  0.25650E-04 [OUT] corresponding to  99.997     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_holes_1_of_2  : VALUE(#1) @COL#  9 is   0.0000     [REF] vs -0.19866E-03 [OUT] corresponding to  27775.     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_holes_2_of_2  : VALUE(#1000) @COL#  2 is -0.83447E-06 [REF] vs -0.26708     [OUT] corresponding to 0.32006E+08 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#711) @COL#  9 is  0.46260E-05 [REF] vs   1.0000     [OUT] corresponding to  100.10     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#717) @COL#  2 is  0.26357E-03 [REF] vs  0.99991     [OUT] corresponding to  99.965     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#1) @COL#  5 is   0.0000     [REF] vs -0.74369E-03 [OUT] corresponding to 0.20795E+06 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#136) @COL#  2 is   0.0000     [REF] vs -0.18042E-03 [OUT] corresponding to  12612.     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_electrons_1_of_2  : VALUE(#587) @COL#  4 is  0.89991     [REF] vs  0.13865     [OUT] corresponding to  76.125     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_electrons_2_of_2  : VALUE(#597) @COL#  3 is   1.0000     [REF] vs  0.25579E-04 [OUT] corresponding to  99.997     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_holes_1_of_2  : VALUE(#1000) @COL#  5 is -0.11921E-06 [REF] vs -0.26708     [OUT] corresponding to 0.22404E+09 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_holes_2_of_2  : VALUE(#459) @COL#  2 is   0.0000     [REF] vs -0.11921E-06 [OUT] corresponding to  14.286     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-serial-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_Temperatures  : VALUE(#3) @COL#  4 is   172.68     [REF] vs  0.33194E+10 [OUT] corresponding to 0.45229E+08 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ep_DbGd-serial-devel-rt-modularization/o-08_ep_DbGd.energy  : VALUE(#34) @COL#  4 is  0.45013E-03 [REF] vs  0.34145E-04 [OUT] corresponding to  92.414     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ep_DbGd-serial-devel-rt-modularization/o-08_ep_DbGd.thermodynamics  : VALUE(#105) @COL#  9 is   1522.7     [REF] vs   51005.     [OUT] corresponding to  2818.2     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_E_Fermi  : VALUE(#3) @COL#  6 is   6.0266     [REF] vs  0.47038     [OUT] corresponding to  92.195     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#458) @COL#  3 is -0.25731E-03 [REF] vs -0.97824     [OUT] corresponding to  97.798     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#502) @COL#  4 is -0.57029E-02 [REF] vs -0.95812     [OUT] corresponding to  95.242     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#688) @COL#  3 is -0.11179E-01 [REF] vs -0.99497     [OUT] corresponding to  98.379     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#654) @COL#  4 is -0.13990E-01 [REF] vs -0.99223     [OUT] corresponding to  97.824     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_electrons_1_of_2  : VALUE(#579) @COL#  3 is -0.98802     [REF] vs   0.0000     [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_electrons_2_of_2  : VALUE(#588) @COL#  2 is  -1.0000     [REF] vs -0.11133     [OUT] corresponding to  88.867     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_holes_1_of_2  : VALUE(#1000) @COL#  9 is -0.10565E-02 [REF] vs -0.19940     [OUT] corresponding to  18773.     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.40315E-02 [REF] vs -0.40731     [OUT] corresponding to  10003.     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#302) @COL#  9 is -0.57309     [REF] vs -0.17730     [OUT] corresponding to  68.855     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#509) @COL#  2 is -0.99974     [REF] vs -0.20025     [OUT] corresponding to  79.965     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#1000) @COL#  9 is -0.69553E-02 [REF] vs -0.32772     [OUT] corresponding to  4611.8     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.21476E-01 [REF] vs -0.55462     [OUT] corresponding to  2482.5     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_electrons_1_of_2  : VALUE(#944) @COL#  8 is -0.14699E-01 [REF] vs -0.84864E-01 [OUT] corresponding to  477.35     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_electrons_2_of_2  : VALUE(#947) @COL#  3 is -0.48703E-01 [REF] vs -0.12255     [OUT] corresponding to  151.62     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_holes_1_of_2  : VALUE(#959) @COL#  4 is -0.99463     [REF] vs -0.12875E-01 [OUT] corresponding to  98.236     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.50708E-01 [REF] vs -0.40407     [OUT] corresponding to  696.85     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-serial-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_Temperatures  : VALUE(#2) @COL#  5 is   4714.7     [REF] vs   0.0000     [OUT] corresponding to  83.736     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-serial-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_E_Fermi  : VALUE(#1) @COL#  3 is   1.2076     [REF] vs   1.1333     [OUT] corresponding to  6.1531     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-serial-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_occupations_FIT_electrons  : VALUE(#115) @COL#  2 is   1.5081     [REF] vs  0.77838     [OUT] corresponding to  36.486     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-serial-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_Temperatures  : VALUE(#1) @COL#  3 is   513.69     [REF] vs   636.25     [OUT] corresponding to  23.858     [% RELATIVE TO MAX]   
Si_bulk/RT/02_elph_0K_adaptative-serial-devel-rt-modularization/o-02_elph_0K_adaptative.energy  : VALUE(#169) @COL#  1 is   191.88     [REF] vs   117.76     [OUT] corresponding to  37.142     [% RELATIVE TO MAX]   
Si_bulk/RT/02_elph_0K_adaptative-serial-devel-rt-modularization/o-02_elph_0K_adaptative.thermodynamics  : VALUE(#169) @COL#  1 is   191.88     [REF] vs   117.76     [OUT] corresponding to  37.142     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-serial-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b2  : VALUE(#6) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-serial-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b3  : VALUE(#6) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-serial-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b4  : VALUE(#6) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-serial-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b5  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-serial-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b6  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-serial-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b7  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-serial-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_E_Fermi  : VALUE(#10) @COL#  3 is  -1.3476     [REF] vs  0.40839     [OUT] corresponding to  25.646     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-serial-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_EE_widths_ratio_FIT_electrons_1_of_2  : VALUE(#26) @COL#  9 is  0.56132     [REF] vs   1.9926     [OUT] corresponding to  229.55     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-serial-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_EE_widths_ratio_FIT_electrons_2_of_2  : VALUE(#26) @COL#  2 is  0.56128     [REF] vs   1.9927     [OUT] corresponding to  229.59     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-serial-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#26) @COL#  3 is  0.56128     [REF] vs   1.9927     [OUT] corresponding to  229.59     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-serial-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_Temperatures  : VALUE(#9) @COL#  5 is   19740.     [REF] vs   319.39     [OUT] corresponding to  35.667     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-serial-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_E_Fermi  : VALUE(#1) @COL#  3 is   4.5594     [REF] vs  -4.9769     [OUT] corresponding to  209.16     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-serial-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_occupations_FIT_electrons  : VALUE(#1) @COL#  2 is   1.5948     [REF] vs  0.17252     [OUT] corresponding to  89.183     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-serial-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_occupations_FIT_holes  : VALUE(#961) @COL#  2 is  -1.6115     [REF] vs -0.28664E-02 [OUT] corresponding to  97.287     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-serial-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_Temperatures  : VALUE(#1) @COL#  2 is   25930.     [REF] vs   256.36     [OUT] corresponding to  99.011     [% RELATIVE TO MAX]   
Si_bulk/RT/06_elph_0K_DbGd-serial-devel-rt-modularization/o-06_elph_0K_DbGd.energy  : VALUE(#201) @COL#  3 is   5.5450     [REF] vs  0.11408     [OUT] corresponding to  97.943     [% RELATIVE TO MAX]   
Si_bulk/RT/06_elph_0K_DbGd-serial-devel-rt-modularization/o-06_elph_0K_DbGd.thermodynamics  : VALUE(#1) @COL# 10 is   0.0000     [REF] vs  0.50955E+06 [OUT] corresponding to  197.36     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-serial-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_E_Fermi  : VALUE(#5) @COL#  3 is   1.5215     [REF] vs  -5.8729     [OUT] corresponding to  307.45     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-serial-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is   1.9143     [REF] vs  0.15023     [OUT] corresponding to  92.152     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-serial-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#4) @COL#  4 is   1.9331     [REF] vs  0.14260     [OUT] corresponding to  92.463     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-serial-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#967) @COL#  9 is  -1.9859     [REF] vs -0.11257E-02 [OUT] corresponding to  99.417     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-serial-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#966) @COL#  4 is  -1.9912     [REF] vs -0.54419E-03 [OUT] corresponding to  99.626     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-serial-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is   1.5965     [REF] vs  0.74412E-01 [OUT] corresponding to  95.339     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-serial-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#1) @COL#  4 is   1.6757     [REF] vs  0.69827E-01 [OUT] corresponding to  95.833     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-serial-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#963) @COL#  9 is  -1.9363     [REF] vs -0.55561E-02 [OUT] corresponding to  97.528     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-serial-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#962) @COL#  4 is  -1.9586     [REF] vs -0.37419E-02 [OUT] corresponding to  98.276     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-serial-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_Temperatures  : VALUE(#1) @COL#  2 is   19333.     [REF] vs   256.36     [OUT] corresponding to  98.674     [% RELATIVE TO MAX]   
Si_bulk/RT/13_elph_0K_field_ad-serial-devel-rt-modularization/o-13_elph_0K_field_ad.energy  : VALUE(#365) @COL#  1 is   336.40     [REF] vs   215.00     [OUT] corresponding to  24.331     [% RELATIVE TO MAX]   
Si_bulk/RT/13_elph_0K_field_ad-serial-devel-rt-modularization/o-13_elph_0K_field_ad.thermodynamics  : VALUE(#296) @COL# 10 is   752.59     [REF] vs   929.72     [OUT] corresponding to  9.8962     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b2  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b3  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b4  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b5  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b6  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b7  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b2  : VALUE(#31) @COL#  4 is -0.38014E-04 [REF] vs  0.90809E-07 [OUT] corresponding to  100.24     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b3  : VALUE(#32) @COL#  4 is -0.18310E-02 [REF] vs  0.14347E-02 [OUT] corresponding to  178.35     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b4  : VALUE(#32) @COL#  4 is -0.18310E-02 [REF] vs  0.14347E-02 [OUT] corresponding to  178.35     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b5  : VALUE(#379) @COL#  3 is -0.34054E-03 [REF] vs  0.28355E-05 [OUT] corresponding to  100.83     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b6  : VALUE(#31) @COL#  3 is -0.58288E-03 [REF] vs  0.56438E-04 [OUT] corresponding to  109.68     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b7  : VALUE(#31) @COL#  3 is -0.58288E-03 [REF] vs  0.56438E-04 [OUT] corresponding to  109.68     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b2  : VALUE(#301) @COL#  4 is -0.53850E-04 [REF] vs  0.70027E-11 [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b3  : VALUE(#31) @COL#  4 is -0.29619E-03 [REF] vs  0.87809E-04 [OUT] corresponding to  129.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b4  : VALUE(#31) @COL#  4 is -0.29619E-03 [REF] vs  0.87810E-04 [OUT] corresponding to  129.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b5  : VALUE(#386) @COL#  3 is -0.13645E-02 [REF] vs  0.13867E-02 [OUT] corresponding to  201.62     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b6  : VALUE(#384) @COL#  3 is -0.13796E-02 [REF] vs  0.22753E-04 [OUT] corresponding to  101.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-serial-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b7  : VALUE(#34) @COL#  3 is -0.28510E-04 [REF] vs  0.30682E-08 [OUT] corresponding to  100.01     [% RELATIVE TO MAX]   
Si_bulk/SC/06_h_using_colls-serial-devel-rt-modularization/o-06_h_using_colls.SC_E_History  : VALUE(#1) @COL#  3 is  0.23242     [REF] vs  0.22645E-01 [OUT] corresponding to  209.78     [% RELATIVE TO MAX]   
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:44:17 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 22-44
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)] - single, default parallelization
=--------------------------------------------------------------------------------=
AlAs/RT/03_rt_delta_ip_adaptative-Nmpi8-def_par-devel-rt-modularization/o-03_rt_delta_ip_adaptative.energy  : VALUE(#42) @COL#  3 is  0.59278E-08 [REF] vs  0.48360E-08 [OUT] corresponding to  13.249     [% RELATIVE TO MAX]   
AlAs/RT/03_rt_delta_ip_adaptative_cache-Nmpi8-def_par-devel-rt-modularization/o-03_rt_delta_ip_adaptative_cache.energy  : VALUE(#44) @COL#  3 is  0.52966E-08 [REF] vs  0.45403E-08 [OUT] corresponding to  9.1764     [% RELATIVE TO MAX]   
AlAs/RT/04_rt_delta_ip_adaptative_cache_restart-Nmpi8-def_par-devel-rt-modularization/o-04_rt_delta_ip_adaptative_cache_restart.energy  : VALUE(#2) @COL#  2 is -0.13159E-08 [REF] vs -0.11560E-08 [OUT] corresponding to  11.885     [% RELATIVE TO MAX]   
H2/RT/02_tdh-Nmpi8-def_par-devel-rt-modularization/o-02_tdh.thermodynamics  : VALUE(#98) @COL#  9 is  0.82359E-03 [REF] vs -0.24708E-02 [OUT] corresponding to  134.96     [% RELATIVE TO MAX]   
H2/RT/02_tdh_coll-Nmpi8-def_par-devel-rt-modularization/o-02_tdh_coll.thermodynamics  : VALUE(#80) @COL#  9 is -0.24596E-02 [REF] vs  0.81987E-03 [OUT] corresponding to  122.29     [% RELATIVE TO MAX]   
H2/RT/03_tdlda-Nmpi8-def_par-devel-rt-modularization/o-03_tdlda.thermodynamics  : VALUE(#53) @COL#  9 is -0.21280E-02 [REF] vs  0.14187E-02 [OUT] corresponding to  160.49     [% RELATIVE TO MAX]   
H2/RT/03_tdlda_coll-Nmpi8-def_par-devel-rt-modularization/o-03_tdlda_coll.thermodynamics  : VALUE(#93) @COL#  9 is  0.14705E-02 [REF] vs -0.14705E-02 [OUT] corresponding to  130.25     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip-Nmpi8-def_par-devel-rt-modularization/o-03_td_ip.energy  : VALUE(#190) @COL#  3 is  0.60165E-08 [REF] vs  0.65310E-08 [OUT] corresponding to  6.1559     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip+qp-Nmpi8-def_par-devel-rt-modularization/o-03_td_ip+qp.energy  : VALUE(#197) @COL#  3 is  0.61150E-08 [REF] vs  0.66762E-08 [OUT] corresponding to  6.5206     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip+qp_vel-Nmpi8-def_par-devel-rt-modularization/o-03_td_ip+qp_vel.energy  : VALUE(#197) @COL#  2 is -0.43507E-08 [REF] vs -0.48548E-08 [OUT] corresponding to  5.3706     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip_radiative-Nmpi8-def_par-devel-rt-modularization/o-03_td_ip_radiative.thermodynamics  : VALUE(#2) @COL#  9 is   25273.     [REF] vs   23759.     [OUT] corresponding to  5.9931     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip_vel-Nmpi8-def_par-devel-rt-modularization/o-03_td_ip_vel.energy  : VALUE(#94) @COL#  2 is -0.49251E-08 [REF] vs -0.53877E-08 [OUT] corresponding to  5.1544     [% RELATIVE TO MAX]   
hBN/RT/04_td_har_coll-Nmpi8-def_par-devel-rt-modularization/o-04_td_har_coll.energy  : VALUE(#167) @COL#  3 is  0.19312E-08 [REF] vs  0.13709E-08 [OUT] corresponding to  8.6586     [% RELATIVE TO MAX]   
hBN/RT/04_td_hartree-Nmpi8-def_par-devel-rt-modularization/o-04_td_hartree.energy  : VALUE(#91) @COL#  3 is  0.55319E-08 [REF] vs  0.60112E-08 [OUT] corresponding to  7.3909     [% RELATIVE TO MAX]   
hBN/RT/04_td_hdft-Nmpi8-def_par-devel-rt-modularization/o-04_td_hdft.energy  : VALUE(#150) @COL#  3 is -0.44593E-06 [REF] vs  0.48165E-07 [OUT] corresponding to  110.80     [% RELATIVE TO MAX]   
hBN/RT/04_td_hdft_coll-Nmpi8-def_par-devel-rt-modularization/o-04_td_hdft_coll.energy  : VALUE(#172) @COL#  3 is  0.38569E-08 [REF] vs  0.44663E-08 [OUT] corresponding to  8.9660     [% RELATIVE TO MAX]   
hBN/RT/05_td_hf-Nmpi8-def_par-devel-rt-modularization/o-05_td_hf.energy  : VALUE(#18) @COL#  3 is  0.12058E-07 [REF] vs  0.64047E-11 [OUT] corresponding to  99.947     [% RELATIVE TO MAX]   
hBN/RT/05_td_hf_fonly_coll-Nmpi8-def_par-devel-rt-modularization/o-05_td_hf_fonly_coll.energy  : VALUE(#18) @COL#  3 is  0.11997E-07 [REF] vs  0.92621E-08 [OUT] corresponding to  22.794     [% RELATIVE TO MAX]   
hBN/RT/06_td_sex_vel-Nmpi8-def_par-devel-rt-modularization/o-06_td_sex_vel.thermodynamics  : VALUE(#29) @COL#  8 is   868.14     [REF] vs   733.80     [OUT] corresponding to  6.7522     [% RELATIVE TO MAX]   
hBN/RT/07_td_sex_restart-Nmpi8-def_par-devel-rt-modularization/o-07_td_sex_restart.energy  : VALUE(#28) @COL#  3 is  0.52559E-05 [REF] vs -0.32704E-05 [OUT] corresponding to  102.33     [% RELATIVE TO MAX]   
hBN/RT/07_td_sex_restart-Nmpi8-def_par-devel-rt-modularization/o-07_td_sex_restart.thermodynamics  : VALUE(#1) @COL#  9 is   429.00     [REF] vs   349.12     [OUT] corresponding to  18.425     [% RELATIVE TO MAX]   
hBN/RT/11_td_sex_dbgd-Nmpi8-def_par-devel-rt-modularization/o-11_td_sex_dbgd.energy  : VALUE(#197) @COL#  3 is -0.44061E-05 [REF] vs  0.21139E-05 [OUT] corresponding to  147.98     [% RELATIVE TO MAX]   
hBN/RT/11_td_sex_dbgd-Nmpi8-def_par-devel-rt-modularization/o-11_td_sex_dbgd.thermodynamics  : VALUE(#2) @COL# 10 is   1859.6     [REF] vs  0.14332E+06 [OUT] corresponding to  7607.2     [% RELATIVE TO MAX]   
hBN/RT/15_td_ip_dbgd-Nmpi8-def_par-devel-rt-modularization/o-15_td_ip_dbgd.energy  : VALUE(#29) @COL#  3 is  0.11439E-07 [REF] vs  0.27864E-08 [OUT] corresponding to  74.441     [% RELATIVE TO MAX]   
hBN/RT/15_td_ip_dbgd-Nmpi8-def_par-devel-rt-modularization/o-15_td_ip_dbgd.thermodynamics  : VALUE(#2) @COL# 10 is   1888.3     [REF] vs  0.14521E+06 [OUT] corresponding to  7590.2     [% RELATIVE TO MAX]   
Iron/abinit/Without-SOC/05_KERR_IP-RPA_vel-Nmpi8-def_par-devel-rt-modularization/o-05_KERR_IP-RPA_vel.off_q1_IP  : VALUE(#18) @COL#  2 is  0.18000E-02 [REF] vs  0.18497E-02 [OUT] corresponding to  24.849     [% RELATIVE TO MAX]   
MoS2/pwscf/OPTICS/With-SOC/05_exciton_spin-Nmpi8-def_par-devel-rt-modularization/o-05_exciton_spin.exc_qpt1_I+spin_sorted  : VALUE(#14) @COL#  3 is   114.00     [REF] vs   4.0000     [OUT] corresponding to  57.895     [% RELATIVE TO MAX]   
MoS2/pwscf/OPTICS/Without-SOC-sp2/05_exciton_spin-Nmpi8-def_par-devel-rt-modularization/o-05_exciton_spin.exc_qpt1_I+spin_sorted  : VALUE(#2) @COL#  4 is  0.90966     [REF] vs  0.53048E-05 [OUT] corresponding to  99.999     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Nmpi8-def_par-devel-rt-modularization/o-04_td_dft.energy  : VALUE(#62) @COL#  3 is  0.12399E-04 [REF] vs -0.67154E-05 [OUT] corresponding to  154.16     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Nmpi8-def_par-devel-rt-modularization/o-04_td_dft.magnetization  : VALUE(#  34) @AVERAGE# is  0.17305E-08 [REF] vs -0.14233E-08 [OUT] corresponding to  85.738     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Nmpi8-def_par-devel-rt-modularization/o-04_td_dft.thermodynamics  : VALUE(#4) @COL#  8 is   728.47     [REF] vs   974.48     [OUT] corresponding to  28.846     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip-Nmpi8-def_par-devel-rt-modularization/o-04_td_ip.thermodynamics  : VALUE(#4) @COL#  8 is   726.03     [REF] vs   976.52     [OUT] corresponding to  32.556     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_DbGd-Nmpi8-def_par-devel-rt-modularization/o-04_td_ip_DbGd.energy  : VALUE(#39) @COL#  3 is  0.86574E-04 [REF] vs  0.61151E-06 [OUT] corresponding to  99.294     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_DbGd-Nmpi8-def_par-devel-rt-modularization/o-04_td_ip_DbGd.thermodynamics  : VALUE(#32) @COL#  8 is   766.87     [REF] vs   10074.     [OUT] corresponding to  1112.5     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_vel-Nmpi8-def_par-devel-rt-modularization/o-04_td_ip_vel.thermodynamics  : VALUE(#11) @COL#  8 is   845.98     [REF] vs   482.28     [OUT] corresponding to  40.552     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex-Nmpi8-def_par-devel-rt-modularization/o-06_td_sex.energy  : VALUE(#64) @COL#  3 is -0.46265E-05 [REF] vs -0.55022E-05 [OUT] corresponding to  13.272     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex-Nmpi8-def_par-devel-rt-modularization/o-06_td_sex.thermodynamics  : VALUE(#20) @COL#  8 is   1171.5     [REF] vs   667.40     [OUT] corresponding to  40.327     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_td_sex_DbGd.energy  : VALUE(#47) @COL#  3 is  0.89885E-04 [REF] vs -0.24250E-05 [OUT] corresponding to  102.70     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_td_sex_DbGd.thermodynamics  : VALUE(#5) @COL#  8 is   1155.3     [REF] vs   17611.     [OUT] corresponding to  1308.2     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_on_the_fly-Nmpi8-def_par-devel-rt-modularization/o-06_td_sex_on_the_fly.energy  : VALUE(#64) @COL#  3 is -0.18298E-05 [REF] vs -0.21741E-05 [OUT] corresponding to  11.454     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ep-Nmpi8-def_par-devel-rt-modularization/o-07_ep.thermodynamics  : VALUE(#3) @COL#  8 is   1080.4     [REF] vs   585.40     [OUT] corresponding to  27.470     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_E_Fermi  : VALUE(#8) @COL#  5 is -0.71141E+06 [REF] vs  0.36347     [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#1) @COL#  3 is   0.0000     [REF] vs  0.99998     [OUT] corresponding to 0.49999E+06 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#729) @COL#  4 is  0.93404E-05 [REF] vs   1.0000     [OUT] corresponding to  99.999     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#1000) @COL#  5 is -0.87738E-04 [REF] vs -0.69487E-03 [OUT] corresponding to  691.98     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#1000) @COL#  2 is -0.61035E-04 [REF] vs -0.48649E-03 [OUT] corresponding to  697.07     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is  0.82963     [REF] vs  0.12480E-06 [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_electrons_2_of_2  : VALUE(#597) @COL#  3 is   1.0000     [REF] vs  0.24735E-04 [OUT] corresponding to  99.997     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_holes_1_of_2  : VALUE(#435) @COL#  8 is -0.11921E-06 [REF] vs   0.0000     [OUT] corresponding to  16.667     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_holes_2_of_2  : VALUE(#1000) @COL#  2 is -0.83447E-06 [REF] vs -0.26708     [OUT] corresponding to 0.32006E+08 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#113) @COL#  7 is  0.48383     [REF] vs  0.58225     [OUT] corresponding to  10.833     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#606) @COL#  2 is  0.99998     [REF] vs  0.94903E-04 [OUT] corresponding to  99.989     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#1) @COL#  8 is   0.0000     [REF] vs -0.56982E-04 [OUT] corresponding to  4345.5     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#352) @COL#  2 is -0.11921E-06 [REF] vs   0.0000     [OUT] corresponding to  8.3333     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_electrons_1_of_2  : VALUE(#587) @COL#  4 is  0.89991     [REF] vs  0.13915     [OUT] corresponding to  76.075     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_electrons_2_of_2  : VALUE(#597) @COL#  3 is   1.0000     [REF] vs  0.25725E-04 [OUT] corresponding to  99.997     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_holes_1_of_2  : VALUE(#999) @COL#  6 is -0.23842E-06 [REF] vs -0.24778E-01 [OUT] corresponding to 0.10393E+08 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_holes_2_of_2  : VALUE(#496) @COL#  2 is -0.11921E-06 [REF] vs   0.0000     [OUT] corresponding to  14.286     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_Temperatures  : VALUE(#8) @COL#  5 is  0.13793E+10 [REF] vs   2454.2     [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ep_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ep_DbGd.energy  : VALUE(#34) @COL#  4 is  0.45013E-03 [REF] vs  0.34413E-04 [OUT] corresponding to  92.355     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ep_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ep_DbGd.thermodynamics  : VALUE(#105) @COL#  9 is   1522.7     [REF] vs   51012.     [OUT] corresponding to  2818.6     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_E_Fermi  : VALUE(#3) @COL#  6 is   6.0266     [REF] vs  0.55842     [OUT] corresponding to  90.734     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#458) @COL#  3 is -0.25731E-03 [REF] vs -0.97828     [OUT] corresponding to  97.802     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#502) @COL#  4 is -0.57029E-02 [REF] vs -0.95790     [OUT] corresponding to  95.219     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#688) @COL#  3 is -0.11179E-01 [REF] vs -0.99496     [OUT] corresponding to  98.378     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#654) @COL#  4 is -0.13990E-01 [REF] vs -0.99227     [OUT] corresponding to  97.828     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_electrons_1_of_2  : VALUE(#579) @COL#  3 is -0.98802     [REF] vs   0.0000     [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_electrons_2_of_2  : VALUE(#588) @COL#  2 is  -1.0000     [REF] vs -0.11150     [OUT] corresponding to  88.850     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_holes_1_of_2  : VALUE(#1000) @COL#  9 is -0.10565E-02 [REF] vs -0.19786     [OUT] corresponding to  18628.     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.40315E-02 [REF] vs -0.37486     [OUT] corresponding to  9198.2     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#302) @COL#  9 is -0.57309     [REF] vs -0.17751     [OUT] corresponding to  68.819     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#509) @COL#  2 is -0.99974     [REF] vs -0.20053     [OUT] corresponding to  79.937     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#693) @COL#  3 is -0.99953     [REF] vs -0.59329E-02 [OUT] corresponding to  99.359     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.21476E-01 [REF] vs -0.54672     [OUT] corresponding to  2445.7     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_electrons_1_of_2  : VALUE(#945) @COL#  8 is -0.14699E-01 [REF] vs -0.84943E-01 [OUT] corresponding to  477.89     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_electrons_2_of_2  : VALUE(#947) @COL#  3 is -0.48703E-01 [REF] vs -0.12277     [OUT] corresponding to  152.07     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_holes_1_of_2  : VALUE(#953) @COL#  4 is -0.99264     [REF] vs -0.16472E-01 [OUT] corresponding to  97.678     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.50708E-01 [REF] vs -0.37596     [OUT] corresponding to  641.43     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_Temperatures  : VALUE(#2) @COL#  5 is   4714.7     [REF] vs   0.0000     [OUT] corresponding to  83.736     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Nmpi8-def_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_E_Fermi  : VALUE(#1) @COL#  3 is   1.2076     [REF] vs   1.1333     [OUT] corresponding to  6.1531     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Nmpi8-def_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_occupations_FIT_electrons  : VALUE(#115) @COL#  2 is   1.5081     [REF] vs  0.77838     [OUT] corresponding to  36.486     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Nmpi8-def_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_Temperatures  : VALUE(#1) @COL#  3 is   513.69     [REF] vs   636.25     [OUT] corresponding to  23.858     [% RELATIVE TO MAX]   
Si_bulk/RT/02_elph_0K_adaptative-Nmpi8-def_par-devel-rt-modularization/o-02_elph_0K_adaptative.energy  : VALUE(#169) @COL#  1 is   191.88     [REF] vs   117.76     [OUT] corresponding to  37.142     [% RELATIVE TO MAX]   
Si_bulk/RT/02_elph_0K_adaptative-Nmpi8-def_par-devel-rt-modularization/o-02_elph_0K_adaptative.thermodynamics  : VALUE(#169) @COL#  1 is   191.88     [REF] vs   117.76     [OUT] corresponding to  37.142     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b2  : VALUE(#11) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b3  : VALUE(#11) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b4  : VALUE(#11) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b5  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b6  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b7  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/03_elel-Nmpi8-def_par-devel-rt-modularization/o-03_elel.carriers  : VALUE(#99) @COL#  2 is -0.10908E-04 [REF] vs -0.16510E-04 [OUT] corresponding to  33.571     [% RELATIVE TO MAX]   
Si_bulk/RT/03_elel_SEX-Nmpi8-def_par-devel-rt-modularization/o-03_elel_SEX.carriers  : VALUE(#168) @COL#  2 is -0.39279E-04 [REF] vs -0.32246E-04 [OUT] corresponding to  15.506     [% RELATIVE TO MAX]   
Si_bulk/RT/03_fit_elel-Nmpi8-def_par-devel-rt-modularization/o-03_fit_elel.YPP-RT_NEQ_linewidths_2_of_2  : VALUE(#1) @COL#  3 is -0.14800E-01 [REF] vs -0.85151E-02 [OUT] corresponding to  42.466     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_E_Fermi  : VALUE(#6) @COL#  3 is  -1.3447     [REF] vs  0.41173     [OUT] corresponding to  25.652     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_EE_widths_ratio_FIT_electrons_1_of_2  : VALUE(#26) @COL#  5 is  0.56341     [REF] vs   1.9924     [OUT] corresponding to  228.27     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_NEQ_linewidths_1_of_2  : VALUE(#1) @COL#  9 is -0.27167E-01 [REF] vs -0.31019E-01 [OUT] corresponding to  5.6380     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_NEQ_linewidths_2_of_2  : VALUE(#1) @COL#  3 is -0.65891E-02 [REF] vs -0.45617E-02 [OUT] corresponding to  24.169     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#28) @COL#  7 is  0.55687     [REF] vs   1.9931     [OUT] corresponding to  230.18     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#26) @COL#  4 is  0.56128     [REF] vs   1.9927     [OUT] corresponding to  229.59     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_Temperatures  : VALUE(#6) @COL#  3 is   19730.     [REF] vs   281.90     [OUT] corresponding to  11.823     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_E_Fermi  : VALUE(#1) @COL#  3 is   4.5594     [REF] vs  -4.9769     [OUT] corresponding to  209.16     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_occupations_FIT_electrons  : VALUE(#1) @COL#  2 is   1.5948     [REF] vs  0.17252     [OUT] corresponding to  89.183     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_occupations_FIT_holes  : VALUE(#961) @COL#  2 is  -1.6115     [REF] vs -0.28664E-02 [OUT] corresponding to  97.287     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_Temperatures  : VALUE(#1) @COL#  2 is   25930.     [REF] vs   256.36     [OUT] corresponding to  99.011     [% RELATIVE TO MAX]   
Si_bulk/RT/06_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_elph_0K_DbGd.energy  : VALUE(#201) @COL#  3 is   5.5450     [REF] vs  0.11408     [OUT] corresponding to  97.943     [% RELATIVE TO MAX]   
Si_bulk/RT/06_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_elph_0K_DbGd.thermodynamics  : VALUE(#1) @COL# 10 is   0.0000     [REF] vs  0.50955E+06 [OUT] corresponding to  197.36     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_E_Fermi  : VALUE(#5) @COL#  3 is   1.5215     [REF] vs  -5.8730     [OUT] corresponding to  307.46     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is   1.9143     [REF] vs  0.15023     [OUT] corresponding to  92.152     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#4) @COL#  4 is   1.9331     [REF] vs  0.14260     [OUT] corresponding to  92.463     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#967) @COL#  9 is  -1.9859     [REF] vs -0.11257E-02 [OUT] corresponding to  99.417     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#966) @COL#  4 is  -1.9912     [REF] vs -0.54419E-03 [OUT] corresponding to  99.626     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is   1.5965     [REF] vs  0.74412E-01 [OUT] corresponding to  95.339     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#1) @COL#  4 is   1.6757     [REF] vs  0.69826E-01 [OUT] corresponding to  95.833     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#963) @COL#  9 is  -1.9363     [REF] vs -0.55561E-02 [OUT] corresponding to  97.528     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#962) @COL#  4 is  -1.9586     [REF] vs -0.37419E-02 [OUT] corresponding to  98.276     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_Temperatures  : VALUE(#1) @COL#  2 is   19333.     [REF] vs   256.36     [OUT] corresponding to  98.674     [% RELATIVE TO MAX]   
Si_bulk/RT/13_elph_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-13_elph_0K_field_ad.energy  : VALUE(#365) @COL#  1 is   336.40     [REF] vs   215.00     [OUT] corresponding to  24.331     [% RELATIVE TO MAX]   
Si_bulk/RT/13_elph_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-13_elph_0K_field_ad.thermodynamics  : VALUE(#296) @COL# 10 is   752.59     [REF] vs   929.72     [OUT] corresponding to  9.8962     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b2  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b3  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b4  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b5  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b6  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b7  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b2  : VALUE(#31) @COL#  4 is -0.38014E-04 [REF] vs  0.90809E-07 [OUT] corresponding to  100.24     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b3  : VALUE(#32) @COL#  4 is -0.18310E-02 [REF] vs  0.14347E-02 [OUT] corresponding to  178.35     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b4  : VALUE(#32) @COL#  4 is -0.18310E-02 [REF] vs  0.14347E-02 [OUT] corresponding to  178.35     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b5  : VALUE(#379) @COL#  3 is -0.34054E-03 [REF] vs  0.28355E-05 [OUT] corresponding to  100.83     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b6  : VALUE(#31) @COL#  3 is -0.58288E-03 [REF] vs  0.56438E-04 [OUT] corresponding to  109.68     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b7  : VALUE(#31) @COL#  3 is -0.58288E-03 [REF] vs  0.56438E-04 [OUT] corresponding to  109.68     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b2  : VALUE(#301) @COL#  4 is -0.53850E-04 [REF] vs  0.70027E-11 [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b3  : VALUE(#31) @COL#  4 is -0.29619E-03 [REF] vs  0.87809E-04 [OUT] corresponding to  129.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b4  : VALUE(#31) @COL#  4 is -0.29619E-03 [REF] vs  0.87810E-04 [OUT] corresponding to  129.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b5  : VALUE(#386) @COL#  3 is -0.13645E-02 [REF] vs  0.13867E-02 [OUT] corresponding to  201.62     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b6  : VALUE(#384) @COL#  3 is -0.13796E-02 [REF] vs  0.22753E-04 [OUT] corresponding to  101.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b7  : VALUE(#34) @COL#  3 is -0.28510E-04 [REF] vs  0.30682E-08 [OUT] corresponding to  100.01     [% RELATIVE TO MAX]   
Si_bulk/SC/06_h_using_colls-Nmpi8-def_par-devel-rt-modularization/o-06_h_using_colls.SC_E_History  : VALUE(#1) @COL#  3 is  0.23242     [REF] vs  0.18734E-03 [OUT] corresponding to  232.23     [% RELATIVE TO MAX]   
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:21:31 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-05
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)] - single, random parallelization
=--------------------------------------------------------------------------------=
AlAs/RT/03_rt_delta_ip_adaptative-Nmpi8-rand_par-devel-rt-modularization/o-03_rt_delta_ip_adaptative.energy  : VALUE(#42) @COL#  3 is  0.59278E-08 [REF] vs  0.48363E-08 [OUT] corresponding to  13.245     [% RELATIVE TO MAX]   
AlAs/RT/03_rt_delta_ip_adaptative_cache-Nmpi8-rand_par-devel-rt-modularization/o-03_rt_delta_ip_adaptative_cache.energy  : VALUE(#44) @COL#  3 is  0.52966E-08 [REF] vs  0.45401E-08 [OUT] corresponding to  9.1797     [% RELATIVE TO MAX]   
AlAs/RT/04_rt_delta_ip_adaptative_cache_restart-Nmpi8-rand_par-devel-rt-modularization/o-04_rt_delta_ip_adaptative_cache_restart.energy  : VALUE(#2) @COL#  2 is -0.13159E-08 [REF] vs -0.11560E-08 [OUT] corresponding to  11.885     [% RELATIVE TO MAX]   
H2/RT/02_tdh-Nmpi8-rand_par-devel-rt-modularization/o-02_tdh.thermodynamics  : VALUE(#98) @COL#  9 is  0.82359E-03 [REF] vs -0.24708E-02 [OUT] corresponding to  134.96     [% RELATIVE TO MAX]   
H2/RT/03_tdlda-Nmpi8-rand_par-devel-rt-modularization/o-03_tdlda.thermodynamics  : VALUE(#53) @COL#  9 is -0.21280E-02 [REF] vs  0.14187E-02 [OUT] corresponding to  160.49     [% RELATIVE TO MAX]   
H2/RT/03_tdlda_coll-Nmpi8-rand_par-devel-rt-modularization/o-03_tdlda_coll.thermodynamics  : VALUE(#93) @COL#  9 is  0.14705E-02 [REF] vs -0.14705E-02 [OUT] corresponding to  130.25     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip-Nmpi8-rand_par-devel-rt-modularization/o-03_td_ip.energy  : VALUE(#190) @COL#  3 is  0.60165E-08 [REF] vs  0.65327E-08 [OUT] corresponding to  6.1767     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip+qp-Nmpi8-rand_par-devel-rt-modularization/o-03_td_ip+qp.energy  : VALUE(#197) @COL#  3 is  0.61150E-08 [REF] vs  0.66764E-08 [OUT] corresponding to  6.5234     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip+qp_vel-Nmpi8-rand_par-devel-rt-modularization/o-03_td_ip+qp_vel.energy  : VALUE(#197) @COL#  2 is -0.43507E-08 [REF] vs -0.48548E-08 [OUT] corresponding to  5.3706     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip_radiative-Nmpi8-rand_par-devel-rt-modularization/o-03_td_ip_radiative.thermodynamics  : VALUE(#2) @COL#  9 is   25273.     [REF] vs   23759.     [OUT] corresponding to  5.9931     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip_vel-Nmpi8-rand_par-devel-rt-modularization/o-03_td_ip_vel.energy  : VALUE(#94) @COL#  2 is -0.49251E-08 [REF] vs -0.53877E-08 [OUT] corresponding to  5.1544     [% RELATIVE TO MAX]   
hBN/RT/04_td_har_coll-Nmpi8-rand_par-devel-rt-modularization/o-04_td_har_coll.energy  : VALUE(#167) @COL#  3 is  0.19312E-08 [REF] vs  0.13729E-08 [OUT] corresponding to  8.6283     [% RELATIVE TO MAX]   
hBN/RT/04_td_hartree-Nmpi8-rand_par-devel-rt-modularization/o-04_td_hartree.energy  : VALUE(#91) @COL#  3 is  0.55319E-08 [REF] vs  0.60106E-08 [OUT] corresponding to  7.3816     [% RELATIVE TO MAX]   
hBN/RT/04_td_hdft-Nmpi8-rand_par-devel-rt-modularization/o-04_td_hdft.energy  : VALUE(#142) @COL#  3 is  0.43851E-06 [REF] vs -0.98806E-07 [OUT] corresponding to  120.50     [% RELATIVE TO MAX]   
hBN/RT/04_td_hdft_coll-Nmpi8-rand_par-devel-rt-modularization/o-04_td_hdft_coll.energy  : VALUE(#172) @COL#  3 is  0.38569E-08 [REF] vs  0.44651E-08 [OUT] corresponding to  8.9482     [% RELATIVE TO MAX]   
hBN/RT/05_td_hf-Nmpi8-rand_par-devel-rt-modularization/o-05_td_hf.energy  : VALUE(#18) @COL#  3 is  0.12058E-07 [REF] vs  0.64047E-11 [OUT] corresponding to  99.947     [% RELATIVE TO MAX]   
hBN/RT/05_td_hf_fonly_coll-Nmpi8-rand_par-devel-rt-modularization/o-05_td_hf_fonly_coll.energy  : VALUE(#18) @COL#  3 is  0.11997E-07 [REF] vs  0.92618E-08 [OUT] corresponding to  22.797     [% RELATIVE TO MAX]   
hBN/RT/07_td_sex_restart-Nmpi8-rand_par-devel-rt-modularization/o-07_td_sex_restart.energy  : VALUE(#28) @COL#  3 is  0.52559E-05 [REF] vs -0.32357E-05 [OUT] corresponding to  101.92     [% RELATIVE TO MAX]   
hBN/RT/07_td_sex_restart-Nmpi8-rand_par-devel-rt-modularization/o-07_td_sex_restart.thermodynamics  : VALUE(#1) @COL#  9 is   429.00     [REF] vs   348.57     [OUT] corresponding to  18.552     [% RELATIVE TO MAX]   
hBN/RT/11_td_sex_dbgd-Nmpi8-rand_par-devel-rt-modularization/o-11_td_sex_dbgd.energy  : VALUE(#197) @COL#  3 is -0.44061E-05 [REF] vs  0.21058E-05 [OUT] corresponding to  147.79     [% RELATIVE TO MAX]   
hBN/RT/11_td_sex_dbgd-Nmpi8-rand_par-devel-rt-modularization/o-11_td_sex_dbgd.thermodynamics  : VALUE(#2) @COL# 10 is   1859.6     [REF] vs  0.14332E+06 [OUT] corresponding to  7607.2     [% RELATIVE TO MAX]   
hBN/RT/15_td_ip_dbgd-Nmpi8-rand_par-devel-rt-modularization/o-15_td_ip_dbgd.energy  : VALUE(#29) @COL#  3 is  0.11439E-07 [REF] vs  0.27867E-08 [OUT] corresponding to  74.438     [% RELATIVE TO MAX]   
hBN/RT/15_td_ip_dbgd-Nmpi8-rand_par-devel-rt-modularization/o-15_td_ip_dbgd.thermodynamics  : VALUE(#2) @COL# 10 is   1888.3     [REF] vs  0.14521E+06 [OUT] corresponding to  7590.2     [% RELATIVE TO MAX]   
Iron/abinit/Without-SOC/05_KERR_IP-RPA_vel-Nmpi8-rand_par-devel-rt-modularization/o-05_KERR_IP-RPA_vel.off_q1_IP  : VALUE(#18) @COL#  2 is  0.18000E-02 [REF] vs  0.18497E-02 [OUT] corresponding to  24.849     [% RELATIVE TO MAX]   
MoS2/pwscf/OPTICS/With-SOC/05_exciton_spin-Nmpi8-rand_par-devel-rt-modularization/o-05_exciton_spin.exc_qpt1_I+spin_sorted  : VALUE(#14) @COL#  3 is   114.00     [REF] vs   4.0000     [OUT] corresponding to  57.895     [% RELATIVE TO MAX]   
MoS2/pwscf/OPTICS/Without-SOC-sp2/05_exciton_spin-Nmpi8-rand_par-devel-rt-modularization/o-05_exciton_spin.exc_qpt1_I+spin_sorted  : VALUE(#2) @COL#  4 is  0.90966     [REF] vs  0.53048E-05 [OUT] corresponding to  99.999     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Nmpi8-rand_par-devel-rt-modularization/o-04_td_dft.energy  : VALUE(#65) @COL#  3 is  0.82230E-05 [REF] vs -0.11461E-04 [OUT] corresponding to  158.75     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Nmpi8-rand_par-devel-rt-modularization/o-04_td_dft.magnetization  : VALUE(#  32) @AVERAGE# is -0.41044E-09 [REF] vs  0.20952E-08 [OUT] corresponding to  68.117     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Nmpi8-rand_par-devel-rt-modularization/o-04_td_dft.thermodynamics  : VALUE(#5) @COL#  8 is   852.81     [REF] vs   765.38     [OUT] corresponding to  10.252     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip-Nmpi8-rand_par-devel-rt-modularization/o-04_td_ip.thermodynamics  : VALUE(#12) @COL#  8 is   674.82     [REF] vs   756.21     [OUT] corresponding to  10.578     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-04_td_ip_DbGd.energy  : VALUE(#39) @COL#  3 is  0.86574E-04 [REF] vs  0.61149E-06 [OUT] corresponding to  99.294     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-04_td_ip_DbGd.thermodynamics  : VALUE(#76) @COL#  8 is   763.55     [REF] vs   9815.3     [OUT] corresponding to  1082.0     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_vel-Nmpi8-rand_par-devel-rt-modularization/o-04_td_ip_vel.thermodynamics  : VALUE(#11) @COL#  8 is   845.98     [REF] vs   482.28     [OUT] corresponding to  40.552     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex-Nmpi8-rand_par-devel-rt-modularization/o-06_td_sex.energy  : VALUE(#63) @COL#  3 is  0.17655E-05 [REF] vs  0.24762E-05 [OUT] corresponding to  10.771     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex-Nmpi8-rand_par-devel-rt-modularization/o-06_td_sex.thermodynamics  : VALUE(#56) @COL#  8 is   1241.2     [REF] vs   1061.7     [OUT] corresponding to  14.357     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_td_sex_DbGd.energy  : VALUE(#47) @COL#  3 is  0.89885E-04 [REF] vs -0.23623E-05 [OUT] corresponding to  102.63     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_td_sex_DbGd.thermodynamics  : VALUE(#4) @COL# 10 is   1116.6     [REF] vs   17559.     [OUT] corresponding to  1446.4     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_on_the_fly-Nmpi8-rand_par-devel-rt-modularization/o-06_td_sex_on_the_fly.energy  : VALUE(#32) @COL#  3 is  0.11659E-05 [REF] vs  0.14664E-05 [OUT] corresponding to  9.9996     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ep-Nmpi8-rand_par-devel-rt-modularization/o-07_ep.thermodynamics  : VALUE(#2) @COL#  8 is   1802.0     [REF] vs   178.45     [OUT] corresponding to  90.097     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_E_Fermi  : VALUE(#6) @COL#  2 is   16759.     [REF] vs  0.28291E+07 [OUT] corresponding to  16781.     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#1) @COL#  3 is   0.0000     [REF] vs  0.99998     [OUT] corresponding to 0.49999E+06 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#729) @COL#  4 is  0.93404E-05 [REF] vs   1.0000     [OUT] corresponding to  99.999     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#1000) @COL#  5 is -0.87738E-04 [REF] vs -0.69332E-03 [OUT] corresponding to  690.22     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#1000) @COL#  2 is -0.61035E-04 [REF] vs -0.48554E-03 [OUT] corresponding to  695.51     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_electrons_1_of_2  : VALUE(#587) @COL#  4 is  0.89952     [REF] vs  0.13777     [OUT] corresponding to  76.175     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_electrons_2_of_2  : VALUE(#597) @COL#  3 is   1.0000     [REF] vs  0.25650E-04 [OUT] corresponding to  99.997     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_holes_1_of_2  : VALUE(#1) @COL#  9 is   0.0000     [REF] vs -0.19866E-03 [OUT] corresponding to  27775.     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_holes_2_of_2  : VALUE(#1000) @COL#  2 is -0.83447E-06 [REF] vs -0.26708     [OUT] corresponding to 0.32006E+08 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#645) @COL#  9 is  0.27431E-04 [REF] vs   1.0000     [OUT] corresponding to  100.10     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#689) @COL#  3 is  0.33713E-01 [REF] vs  0.97584     [OUT] corresponding to  94.213     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#1) @COL#  5 is   0.0000     [REF] vs -0.74369E-03 [OUT] corresponding to 0.20795E+06 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#136) @COL#  2 is   0.0000     [REF] vs -0.18042E-03 [OUT] corresponding to  12612.     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_electrons_1_of_2  : VALUE(#587) @COL#  4 is  0.89991     [REF] vs  0.13868     [OUT] corresponding to  76.122     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_electrons_2_of_2  : VALUE(#597) @COL#  3 is   1.0000     [REF] vs  0.25579E-04 [OUT] corresponding to  99.997     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_holes_1_of_2  : VALUE(#1000) @COL#  5 is -0.11921E-06 [REF] vs -0.26708     [OUT] corresponding to 0.22404E+09 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_holes_2_of_2  : VALUE(#464) @COL#  2 is   0.0000     [REF] vs -0.11921E-06 [OUT] corresponding to  14.286     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Nmpi8-rand_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_Temperatures  : VALUE(#6) @COL#  2 is  0.29683E+08 [REF] vs  0.36428E+10 [OUT] corresponding to  12172.     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ep_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ep_DbGd.energy  : VALUE(#34) @COL#  4 is  0.45013E-03 [REF] vs  0.34150E-04 [OUT] corresponding to  92.413     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ep_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ep_DbGd.thermodynamics  : VALUE(#105) @COL#  9 is   1522.7     [REF] vs   51005.     [OUT] corresponding to  2818.2     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_E_Fermi  : VALUE(#3) @COL#  6 is   6.0266     [REF] vs  0.46949     [OUT] corresponding to  92.210     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#458) @COL#  3 is -0.25731E-03 [REF] vs -0.97824     [OUT] corresponding to  97.798     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#502) @COL#  4 is -0.57029E-02 [REF] vs -0.95812     [OUT] corresponding to  95.242     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#688) @COL#  3 is -0.11179E-01 [REF] vs -0.99498     [OUT] corresponding to  98.380     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#654) @COL#  4 is -0.13990E-01 [REF] vs -0.99223     [OUT] corresponding to  97.824     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_electrons_1_of_2  : VALUE(#579) @COL#  3 is -0.98802     [REF] vs   0.0000     [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_electrons_2_of_2  : VALUE(#588) @COL#  2 is  -1.0000     [REF] vs -0.11129     [OUT] corresponding to  88.871     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_holes_1_of_2  : VALUE(#1000) @COL#  9 is -0.10565E-02 [REF] vs -0.20091     [OUT] corresponding to  18916.     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.40315E-02 [REF] vs -0.40577     [OUT] corresponding to  9965.0     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#302) @COL#  9 is -0.57309     [REF] vs -0.17730     [OUT] corresponding to  68.855     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#508) @COL#  2 is -0.99974     [REF] vs -0.20025     [OUT] corresponding to  79.965     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#1000) @COL#  9 is -0.69553E-02 [REF] vs -0.32731     [OUT] corresponding to  4605.9     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.21476E-01 [REF] vs -0.55848     [OUT] corresponding to  2500.4     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_electrons_1_of_2  : VALUE(#944) @COL#  8 is -0.14699E-01 [REF] vs -0.84865E-01 [OUT] corresponding to  477.36     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_electrons_2_of_2  : VALUE(#947) @COL#  3 is -0.48703E-01 [REF] vs -0.12255     [OUT] corresponding to  151.64     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_holes_1_of_2  : VALUE(#959) @COL#  4 is -0.99463     [REF] vs -0.12931E-01 [OUT] corresponding to  98.231     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.50708E-01 [REF] vs -0.40366     [OUT] corresponding to  696.05     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_Temperatures  : VALUE(#2) @COL#  5 is   4714.7     [REF] vs   0.0000     [OUT] corresponding to  83.736     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Nmpi8-rand_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_E_Fermi  : VALUE(#1) @COL#  3 is   1.2076     [REF] vs   1.1333     [OUT] corresponding to  6.1531     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Nmpi8-rand_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_occupations_FIT_electrons  : VALUE(#115) @COL#  2 is   1.5081     [REF] vs  0.77838     [OUT] corresponding to  36.486     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Nmpi8-rand_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_Temperatures  : VALUE(#1) @COL#  3 is   513.69     [REF] vs   636.25     [OUT] corresponding to  23.858     [% RELATIVE TO MAX]   
Si_bulk/RT/02_elph_0K_adaptative-Nmpi8-rand_par-devel-rt-modularization/o-02_elph_0K_adaptative.energy  : VALUE(#169) @COL#  1 is   191.88     [REF] vs   117.76     [OUT] corresponding to  37.142     [% RELATIVE TO MAX]   
Si_bulk/RT/02_elph_0K_adaptative-Nmpi8-rand_par-devel-rt-modularization/o-02_elph_0K_adaptative.thermodynamics  : VALUE(#169) @COL#  1 is   191.88     [REF] vs   117.76     [OUT] corresponding to  37.142     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-rand_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b2  : VALUE(#6) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-rand_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b3  : VALUE(#6) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-rand_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b4  : VALUE(#6) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-rand_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b5  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-rand_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b6  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Nmpi8-rand_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b7  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/03_elel-Nmpi8-rand_par-devel-rt-modularization/o-03_elel.carriers  : VALUE(#93) @COL#  2 is -0.93579E-05 [REF] vs -0.16034E-04 [OUT] corresponding to  40.000     [% RELATIVE TO MAX]   
Si_bulk/RT/03_elel_SEX-Nmpi8-rand_par-devel-rt-modularization/o-03_elel_SEX.carriers  : VALUE(#163) @COL#  2 is -0.39935E-04 [REF] vs -0.33140E-04 [OUT] corresponding to  14.980     [% RELATIVE TO MAX]   
Si_bulk/RT/03_fit_elel-Nmpi8-rand_par-devel-rt-modularization/o-03_fit_elel.YPP-RT_NEQ_linewidths_1_of_2  : VALUE(#1) @COL#  9 is -0.24126E-01 [REF] vs -0.28688E-01 [OUT] corresponding to  6.9552     [% RELATIVE TO MAX]   
Si_bulk/RT/03_fit_elel-Nmpi8-rand_par-devel-rt-modularization/o-03_fit_elel.YPP-RT_NEQ_linewidths_2_of_2  : VALUE(#1) @COL#  3 is -0.14800E-01 [REF] vs -0.60822E-02 [OUT] corresponding to  58.904     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-rand_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_E_Fermi  : VALUE(#11) @COL#  5 is  -1.3477     [REF] vs  0.41171     [OUT] corresponding to  29.069     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-rand_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_EE_widths_ratio_FIT_electrons_2_of_2  : VALUE(#28) @COL#  4 is  0.55647     [REF] vs   1.9931     [OUT] corresponding to  230.43     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-rand_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_NEQ_linewidths_1_of_2  : VALUE(#1) @COL#  9 is -0.27167E-01 [REF] vs -0.30817E-01 [OUT] corresponding to  5.3412     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-rand_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_NEQ_linewidths_2_of_2  : VALUE(#1) @COL#  3 is -0.65891E-02 [REF] vs -0.46630E-02 [OUT] corresponding to  22.961     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-rand_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#28) @COL#  7 is  0.55687     [REF] vs   1.9931     [OUT] corresponding to  230.18     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-rand_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#26) @COL#  3 is  0.56128     [REF] vs   1.9927     [OUT] corresponding to  229.58     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Nmpi8-rand_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_Temperatures  : VALUE(#11) @COL#  5 is   19740.     [REF] vs   281.14     [OUT] corresponding to  35.737     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_E_Fermi  : VALUE(#1) @COL#  3 is   4.5594     [REF] vs  -4.9769     [OUT] corresponding to  209.16     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_occupations_FIT_electrons  : VALUE(#1) @COL#  2 is   1.5948     [REF] vs  0.17252     [OUT] corresponding to  89.183     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_occupations_FIT_holes  : VALUE(#961) @COL#  2 is  -1.6115     [REF] vs -0.28664E-02 [OUT] corresponding to  97.287     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_Temperatures  : VALUE(#1) @COL#  2 is   25930.     [REF] vs   256.36     [OUT] corresponding to  99.011     [% RELATIVE TO MAX]   
Si_bulk/RT/06_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_elph_0K_DbGd.energy  : VALUE(#201) @COL#  3 is   5.5450     [REF] vs  0.11408     [OUT] corresponding to  97.943     [% RELATIVE TO MAX]   
Si_bulk/RT/06_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_elph_0K_DbGd.thermodynamics  : VALUE(#1) @COL# 10 is   0.0000     [REF] vs  0.50955E+06 [OUT] corresponding to  197.36     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_E_Fermi  : VALUE(#5) @COL#  3 is   1.5215     [REF] vs  -5.8729     [OUT] corresponding to  307.45     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is   1.9143     [REF] vs  0.15023     [OUT] corresponding to  92.152     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#4) @COL#  4 is   1.9331     [REF] vs  0.14260     [OUT] corresponding to  92.463     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#967) @COL#  9 is  -1.9859     [REF] vs -0.11257E-02 [OUT] corresponding to  99.417     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#966) @COL#  4 is  -1.9912     [REF] vs -0.54419E-03 [OUT] corresponding to  99.626     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is   1.5965     [REF] vs  0.74412E-01 [OUT] corresponding to  95.339     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#1) @COL#  4 is   1.6757     [REF] vs  0.69827E-01 [OUT] corresponding to  95.833     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#963) @COL#  9 is  -1.9363     [REF] vs -0.55561E-02 [OUT] corresponding to  97.528     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#962) @COL#  4 is  -1.9586     [REF] vs -0.37419E-02 [OUT] corresponding to  98.276     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Nmpi8-rand_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_Temperatures  : VALUE(#1) @COL#  2 is   19333.     [REF] vs   256.36     [OUT] corresponding to  98.674     [% RELATIVE TO MAX]   
Si_bulk/RT/13_elph_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-13_elph_0K_field_ad.energy  : VALUE(#365) @COL#  1 is   336.40     [REF] vs   215.00     [OUT] corresponding to  24.331     [% RELATIVE TO MAX]   
Si_bulk/RT/13_elph_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-13_elph_0K_field_ad.thermodynamics  : VALUE(#296) @COL# 10 is   752.59     [REF] vs   929.72     [OUT] corresponding to  9.8962     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b2  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b3  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b4  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b5  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b6  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b7  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b2  : VALUE(#31) @COL#  4 is -0.38014E-04 [REF] vs  0.90809E-07 [OUT] corresponding to  100.24     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b3  : VALUE(#32) @COL#  4 is -0.18310E-02 [REF] vs  0.14347E-02 [OUT] corresponding to  178.35     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b4  : VALUE(#32) @COL#  4 is -0.18310E-02 [REF] vs  0.14347E-02 [OUT] corresponding to  178.35     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b5  : VALUE(#379) @COL#  3 is -0.34054E-03 [REF] vs  0.28355E-05 [OUT] corresponding to  100.83     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b6  : VALUE(#31) @COL#  3 is -0.58288E-03 [REF] vs  0.56438E-04 [OUT] corresponding to  109.68     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b7  : VALUE(#31) @COL#  3 is -0.58288E-03 [REF] vs  0.56438E-04 [OUT] corresponding to  109.68     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b2  : VALUE(#301) @COL#  4 is -0.53850E-04 [REF] vs  0.70027E-11 [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b3  : VALUE(#31) @COL#  4 is -0.29619E-03 [REF] vs  0.87809E-04 [OUT] corresponding to  129.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b4  : VALUE(#31) @COL#  4 is -0.29619E-03 [REF] vs  0.87810E-04 [OUT] corresponding to  129.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b5  : VALUE(#386) @COL#  3 is -0.13645E-02 [REF] vs  0.13867E-02 [OUT] corresponding to  201.62     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b6  : VALUE(#384) @COL#  3 is -0.13796E-02 [REF] vs  0.22753E-04 [OUT] corresponding to  101.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Nmpi8-rand_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b7  : VALUE(#34) @COL#  3 is -0.28510E-04 [REF] vs  0.30682E-08 [OUT] corresponding to  100.01     [% RELATIVE TO MAX]   
Si_bulk/SC/06_h_using_colls-Nmpi8-rand_par-devel-rt-modularization/o-06_h_using_colls.SC_E_History  : VALUE(#1) @COL#  3 is  0.23242     [REF] vs  0.18734E-03 [OUT] corresponding to  232.23     [% RELATIVE TO MAX]   
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:24:18 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-30
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)(SLK=4)] - single, default parallelization
=--------------------------------------------------------------------------------=
AlAs/RT/03_rt_delta_ip_adaptative-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_rt_delta_ip_adaptative.energy  : VALUE(#42) @COL#  3 is  0.59278E-08 [REF] vs  0.48360E-08 [OUT] corresponding to  13.249     [% RELATIVE TO MAX]   
AlAs/RT/03_rt_delta_ip_adaptative_cache-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_rt_delta_ip_adaptative_cache.energy  : VALUE(#44) @COL#  3 is  0.52966E-08 [REF] vs  0.45403E-08 [OUT] corresponding to  9.1764     [% RELATIVE TO MAX]   
AlAs/RT/04_rt_delta_ip_adaptative_cache_restart-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_rt_delta_ip_adaptative_cache_restart.energy  : VALUE(#2) @COL#  2 is -0.13159E-08 [REF] vs -0.11560E-08 [OUT] corresponding to  11.885     [% RELATIVE TO MAX]   
H2/RT/02_tdh-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_tdh.thermodynamics  : VALUE(#98) @COL#  9 is  0.82359E-03 [REF] vs -0.24708E-02 [OUT] corresponding to  134.96     [% RELATIVE TO MAX]   
H2/RT/02_tdh_coll-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_tdh_coll.thermodynamics  : VALUE(#80) @COL#  9 is -0.24596E-02 [REF] vs  0.81987E-03 [OUT] corresponding to  122.29     [% RELATIVE TO MAX]   
H2/RT/03_tdlda-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_tdlda.thermodynamics  : VALUE(#53) @COL#  9 is -0.21280E-02 [REF] vs  0.14187E-02 [OUT] corresponding to  160.49     [% RELATIVE TO MAX]   
H2/RT/03_tdlda_coll-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_tdlda_coll.thermodynamics  : VALUE(#93) @COL#  9 is  0.14705E-02 [REF] vs -0.14705E-02 [OUT] corresponding to  130.25     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_td_ip.energy  : VALUE(#190) @COL#  3 is  0.60165E-08 [REF] vs  0.65310E-08 [OUT] corresponding to  6.1559     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip+qp-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_td_ip+qp.energy  : VALUE(#197) @COL#  3 is  0.61150E-08 [REF] vs  0.66762E-08 [OUT] corresponding to  6.5206     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip+qp_vel-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_td_ip+qp_vel.energy  : VALUE(#197) @COL#  2 is -0.43507E-08 [REF] vs -0.48548E-08 [OUT] corresponding to  5.3706     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip_radiative-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_td_ip_radiative.thermodynamics  : VALUE(#2) @COL#  9 is   25273.     [REF] vs   23759.     [OUT] corresponding to  5.9931     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip_vel-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_td_ip_vel.energy  : VALUE(#94) @COL#  2 is -0.49251E-08 [REF] vs -0.53877E-08 [OUT] corresponding to  5.1544     [% RELATIVE TO MAX]   
hBN/RT/04_td_har_coll-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_td_har_coll.energy  : VALUE(#167) @COL#  3 is  0.19312E-08 [REF] vs  0.13709E-08 [OUT] corresponding to  8.6586     [% RELATIVE TO MAX]   
hBN/RT/04_td_hartree-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_td_hartree.energy  : VALUE(#91) @COL#  3 is  0.55319E-08 [REF] vs  0.60112E-08 [OUT] corresponding to  7.3909     [% RELATIVE TO MAX]   
hBN/RT/04_td_hdft-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_td_hdft.energy  : VALUE(#150) @COL#  3 is -0.44593E-06 [REF] vs  0.48165E-07 [OUT] corresponding to  110.80     [% RELATIVE TO MAX]   
hBN/RT/04_td_hdft_coll-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_td_hdft_coll.energy  : VALUE(#172) @COL#  3 is  0.38569E-08 [REF] vs  0.44663E-08 [OUT] corresponding to  8.9660     [% RELATIVE TO MAX]   
hBN/RT/05_td_hf-Slk4-Nmpi8-def_par-devel-rt-modularization/o-05_td_hf.energy  : VALUE(#18) @COL#  3 is  0.12058E-07 [REF] vs  0.64047E-11 [OUT] corresponding to  99.947     [% RELATIVE TO MAX]   
hBN/RT/05_td_hf_fonly_coll-Slk4-Nmpi8-def_par-devel-rt-modularization/o-05_td_hf_fonly_coll.energy  : VALUE(#18) @COL#  3 is  0.11997E-07 [REF] vs  0.92621E-08 [OUT] corresponding to  22.794     [% RELATIVE TO MAX]   
hBN/RT/07_td_sex_restart-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_td_sex_restart.energy  : VALUE(#28) @COL#  3 is  0.52559E-05 [REF] vs -0.32704E-05 [OUT] corresponding to  102.33     [% RELATIVE TO MAX]   
hBN/RT/07_td_sex_restart-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_td_sex_restart.thermodynamics  : VALUE(#1) @COL#  9 is   429.00     [REF] vs   349.12     [OUT] corresponding to  18.426     [% RELATIVE TO MAX]   
hBN/RT/11_td_sex_dbgd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-11_td_sex_dbgd.energy  : VALUE(#197) @COL#  3 is -0.44061E-05 [REF] vs  0.21139E-05 [OUT] corresponding to  147.98     [% RELATIVE TO MAX]   
hBN/RT/11_td_sex_dbgd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-11_td_sex_dbgd.thermodynamics  : VALUE(#2) @COL# 10 is   1859.6     [REF] vs  0.14332E+06 [OUT] corresponding to  7607.2     [% RELATIVE TO MAX]   
hBN/RT/15_td_ip_dbgd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-15_td_ip_dbgd.energy  : VALUE(#29) @COL#  3 is  0.11439E-07 [REF] vs  0.27864E-08 [OUT] corresponding to  74.441     [% RELATIVE TO MAX]   
hBN/RT/15_td_ip_dbgd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-15_td_ip_dbgd.thermodynamics  : VALUE(#2) @COL# 10 is   1888.3     [REF] vs  0.14521E+06 [OUT] corresponding to  7590.2     [% RELATIVE TO MAX]   
Iron/abinit/Without-SOC/05_KERR_IP-RPA_vel-Slk4-Nmpi8-def_par-devel-rt-modularization/o-05_KERR_IP-RPA_vel.off_q1_IP  : VALUE(#18) @COL#  2 is  0.18000E-02 [REF] vs  0.18497E-02 [OUT] corresponding to  24.849     [% RELATIVE TO MAX]   
MoS2/pwscf/OPTICS/With-SOC/05_exciton_spin-Slk4-Nmpi8-def_par-devel-rt-modularization/o-05_exciton_spin.exc_qpt1_I+spin_sorted  : VALUE(#19) @COL#  5 is  0.98191     [REF] vs  0.83447E-06 [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/OPTICS/Without-SOC-sp2/05_exciton_spin-Slk4-Nmpi8-def_par-devel-rt-modularization/o-05_exciton_spin.exc_qpt1_I+spin_sorted  : VALUE(#2) @COL#  4 is  0.90966     [REF] vs  0.53048E-05 [OUT] corresponding to  99.999     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_td_dft.energy  : VALUE(#62) @COL#  3 is  0.12399E-04 [REF] vs -0.67154E-05 [OUT] corresponding to  154.16     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_td_dft.magnetization  : VALUE(#  34) @AVERAGE# is  0.17305E-08 [REF] vs -0.14233E-08 [OUT] corresponding to  85.738     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_td_dft.thermodynamics  : VALUE(#4) @COL#  8 is   728.47     [REF] vs   974.48     [OUT] corresponding to  28.846     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_td_ip.thermodynamics  : VALUE(#4) @COL#  8 is   726.03     [REF] vs   976.52     [OUT] corresponding to  32.556     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_td_ip_DbGd.energy  : VALUE(#39) @COL#  3 is  0.86574E-04 [REF] vs  0.61151E-06 [OUT] corresponding to  99.294     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_td_ip_DbGd.thermodynamics  : VALUE(#32) @COL#  8 is   766.87     [REF] vs   10074.     [OUT] corresponding to  1112.5     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_vel-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_td_ip_vel.thermodynamics  : VALUE(#11) @COL#  8 is   845.98     [REF] vs   482.28     [OUT] corresponding to  40.552     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_td_sex.energy  : VALUE(#64) @COL#  3 is -0.46265E-05 [REF] vs -0.55030E-05 [OUT] corresponding to  13.285     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_td_sex.thermodynamics  : VALUE(#20) @COL#  8 is   1171.5     [REF] vs   682.51     [OUT] corresponding to  39.118     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_td_sex_DbGd.energy  : VALUE(#47) @COL#  3 is  0.89885E-04 [REF] vs -0.24250E-05 [OUT] corresponding to  102.70     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_td_sex_DbGd.thermodynamics  : VALUE(#4) @COL# 10 is   1116.6     [REF] vs   17558.     [OUT] corresponding to  1446.3     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_on_the_fly-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_td_sex_on_the_fly.energy  : VALUE(#64) @COL#  3 is -0.18298E-05 [REF] vs -0.21740E-05 [OUT] corresponding to  11.452     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ep-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ep.thermodynamics  : VALUE(#3) @COL#  8 is   1080.4     [REF] vs   584.58     [OUT] corresponding to  27.516     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_E_Fermi  : VALUE(#8) @COL#  5 is -0.71141E+06 [REF] vs  0.36347     [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#1) @COL#  3 is   0.0000     [REF] vs  0.99998     [OUT] corresponding to 0.49999E+06 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#729) @COL#  4 is  0.93404E-05 [REF] vs   1.0000     [OUT] corresponding to  99.999     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#1000) @COL#  5 is -0.87738E-04 [REF] vs -0.69487E-03 [OUT] corresponding to  691.98     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#1000) @COL#  2 is -0.61035E-04 [REF] vs -0.48649E-03 [OUT] corresponding to  697.07     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is  0.82963     [REF] vs  0.12480E-06 [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_electrons_2_of_2  : VALUE(#597) @COL#  3 is   1.0000     [REF] vs  0.24730E-04 [OUT] corresponding to  99.997     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_holes_1_of_2  : VALUE(#435) @COL#  8 is -0.11921E-06 [REF] vs   0.0000     [OUT] corresponding to  16.667     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_holes_2_of_2  : VALUE(#1000) @COL#  2 is -0.83447E-06 [REF] vs -0.26708     [OUT] corresponding to 0.32006E+08 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#113) @COL#  7 is  0.48383     [REF] vs  0.58226     [OUT] corresponding to  10.833     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#606) @COL#  2 is  0.99998     [REF] vs  0.94903E-04 [OUT] corresponding to  99.989     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#1) @COL#  8 is   0.0000     [REF] vs -0.56982E-04 [OUT] corresponding to  4345.5     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#352) @COL#  2 is -0.11921E-06 [REF] vs   0.0000     [OUT] corresponding to  8.3333     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_electrons_1_of_2  : VALUE(#587) @COL#  4 is  0.89991     [REF] vs  0.13922     [OUT] corresponding to  76.069     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_electrons_2_of_2  : VALUE(#597) @COL#  3 is   1.0000     [REF] vs  0.25725E-04 [OUT] corresponding to  99.997     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_holes_1_of_2  : VALUE(#999) @COL#  6 is -0.23842E-06 [REF] vs -0.24778E-01 [OUT] corresponding to 0.10393E+08 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_holes_2_of_2  : VALUE(#496) @COL#  2 is -0.11921E-06 [REF] vs   0.0000     [OUT] corresponding to  14.286     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Slk4-Nmpi8-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_Temperatures  : VALUE(#8) @COL#  5 is  0.13793E+10 [REF] vs   2454.2     [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ep_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ep_DbGd.energy  : VALUE(#34) @COL#  4 is  0.45013E-03 [REF] vs  0.34413E-04 [OUT] corresponding to  92.355     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ep_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ep_DbGd.thermodynamics  : VALUE(#105) @COL#  9 is   1522.7     [REF] vs   51011.     [OUT] corresponding to  2818.6     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_E_Fermi  : VALUE(#3) @COL#  6 is   6.0266     [REF] vs  0.55838     [OUT] corresponding to  90.735     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#458) @COL#  3 is -0.25731E-03 [REF] vs -0.97828     [OUT] corresponding to  97.802     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#502) @COL#  4 is -0.57029E-02 [REF] vs -0.95790     [OUT] corresponding to  95.219     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#688) @COL#  3 is -0.11179E-01 [REF] vs -0.99491     [OUT] corresponding to  98.373     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#654) @COL#  4 is -0.13990E-01 [REF] vs -0.99227     [OUT] corresponding to  97.828     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_electrons_1_of_2  : VALUE(#579) @COL#  3 is -0.98802     [REF] vs   0.0000     [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_electrons_2_of_2  : VALUE(#588) @COL#  2 is  -1.0000     [REF] vs -0.11146     [OUT] corresponding to  88.854     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_holes_1_of_2  : VALUE(#1000) @COL#  9 is -0.10565E-02 [REF] vs -0.20493     [OUT] corresponding to  19298.     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.40315E-02 [REF] vs -0.37870     [OUT] corresponding to  9293.5     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#302) @COL#  9 is -0.57309     [REF] vs -0.17751     [OUT] corresponding to  68.819     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#508) @COL#  2 is -0.99974     [REF] vs -0.20053     [OUT] corresponding to  79.937     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#1000) @COL#  9 is -0.69553E-02 [REF] vs -0.33570     [OUT] corresponding to  4726.4     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.21476E-01 [REF] vs -0.54674     [OUT] corresponding to  2445.8     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_electrons_1_of_2  : VALUE(#945) @COL#  8 is -0.14699E-01 [REF] vs -0.84943E-01 [OUT] corresponding to  477.89     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_electrons_2_of_2  : VALUE(#947) @COL#  3 is -0.48703E-01 [REF] vs -0.12277     [OUT] corresponding to  152.08     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_holes_1_of_2  : VALUE(#953) @COL#  4 is -0.99264     [REF] vs -0.16306E-01 [OUT] corresponding to  97.695     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.50708E-01 [REF] vs -0.37625     [OUT] corresponding to  641.99     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_Temperatures  : VALUE(#2) @COL#  5 is   4714.7     [REF] vs   0.0000     [OUT] corresponding to  83.736     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_E_Fermi  : VALUE(#1) @COL#  3 is   1.2076     [REF] vs   1.1333     [OUT] corresponding to  6.1531     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_occupations_FIT_electrons  : VALUE(#115) @COL#  2 is   1.5081     [REF] vs  0.77838     [OUT] corresponding to  36.486     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_Temperatures  : VALUE(#1) @COL#  3 is   513.69     [REF] vs   636.25     [OUT] corresponding to  23.858     [% RELATIVE TO MAX]   
Si_bulk/RT/02_elph_0K_adaptative-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_elph_0K_adaptative.energy  : VALUE(#169) @COL#  1 is   191.88     [REF] vs   117.76     [OUT] corresponding to  37.142     [% RELATIVE TO MAX]   
Si_bulk/RT/02_elph_0K_adaptative-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_elph_0K_adaptative.thermodynamics  : VALUE(#169) @COL#  1 is   191.88     [REF] vs   117.76     [OUT] corresponding to  37.142     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b2  : VALUE(#11) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b3  : VALUE(#11) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b4  : VALUE(#11) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b5  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b6  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Slk4-Nmpi8-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b7  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/03_elel-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_elel.carriers  : VALUE(#99) @COL#  2 is -0.10908E-04 [REF] vs -0.15318E-04 [OUT] corresponding to  26.429     [% RELATIVE TO MAX]   
Si_bulk/RT/03_elel_SEX-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_elel_SEX.carriers  : VALUE(#168) @COL#  2 is -0.39279E-04 [REF] vs -0.31531E-04 [OUT] corresponding to  17.083     [% RELATIVE TO MAX]   
Si_bulk/RT/03_fit_elel-Slk4-Nmpi8-def_par-devel-rt-modularization/o-03_fit_elel.YPP-RT_NEQ_linewidths_2_of_2  : VALUE(#1) @COL#  3 is -0.14800E-01 [REF] vs -0.78055E-02 [OUT] corresponding to  47.260     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_E_Fermi  : VALUE(#11) @COL#  5 is  -1.3477     [REF] vs  0.41005     [OUT] corresponding to  29.042     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_EE_widths_ratio_FIT_electrons_1_of_2  : VALUE(#26) @COL#  5 is  0.56341     [REF] vs   1.9928     [OUT] corresponding to  228.34     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_EE_widths_ratio_FIT_electrons_2_of_2  : VALUE(#26) @COL#  4 is  0.56128     [REF] vs   1.9931     [OUT] corresponding to  229.66     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_NEQ_linewidths_1_of_2  : VALUE(#1) @COL#  9 is -0.27167E-01 [REF] vs -0.30715E-01 [OUT] corresponding to  5.1929     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_NEQ_linewidths_2_of_2  : VALUE(#1) @COL#  3 is -0.65891E-02 [REF] vs -0.48658E-02 [OUT] corresponding to  20.544     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#26) @COL#  6 is  0.56232     [REF] vs   1.9933     [OUT] corresponding to  229.06     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#26) @COL#  3 is  0.56128     [REF] vs   1.9927     [OUT] corresponding to  229.59     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Slk4-Nmpi8-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_Temperatures  : VALUE(#10) @COL#  3 is   19740.     [REF] vs   319.54     [OUT] corresponding to  11.806     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_E_Fermi  : VALUE(#1) @COL#  3 is   4.5594     [REF] vs  -4.9769     [OUT] corresponding to  209.16     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_occupations_FIT_electrons  : VALUE(#1) @COL#  2 is   1.5948     [REF] vs  0.17252     [OUT] corresponding to  89.183     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_occupations_FIT_holes  : VALUE(#961) @COL#  2 is  -1.6115     [REF] vs -0.28664E-02 [OUT] corresponding to  97.287     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_Temperatures  : VALUE(#1) @COL#  2 is   25930.     [REF] vs   256.36     [OUT] corresponding to  99.011     [% RELATIVE TO MAX]   
Si_bulk/RT/06_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_elph_0K_DbGd.energy  : VALUE(#201) @COL#  3 is   5.5450     [REF] vs  0.11408     [OUT] corresponding to  97.943     [% RELATIVE TO MAX]   
Si_bulk/RT/06_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_elph_0K_DbGd.thermodynamics  : VALUE(#1) @COL# 10 is   0.0000     [REF] vs  0.50955E+06 [OUT] corresponding to  197.36     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_E_Fermi  : VALUE(#5) @COL#  3 is   1.5215     [REF] vs  -5.8730     [OUT] corresponding to  307.46     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is   1.9143     [REF] vs  0.15023     [OUT] corresponding to  92.152     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#4) @COL#  4 is   1.9331     [REF] vs  0.14260     [OUT] corresponding to  92.463     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#967) @COL#  9 is  -1.9859     [REF] vs -0.11257E-02 [OUT] corresponding to  99.417     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#966) @COL#  4 is  -1.9912     [REF] vs -0.54419E-03 [OUT] corresponding to  99.626     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is   1.5965     [REF] vs  0.74412E-01 [OUT] corresponding to  95.339     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#1) @COL#  4 is   1.6757     [REF] vs  0.69826E-01 [OUT] corresponding to  95.833     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#963) @COL#  9 is  -1.9363     [REF] vs -0.55561E-02 [OUT] corresponding to  97.528     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#962) @COL#  4 is  -1.9586     [REF] vs -0.37419E-02 [OUT] corresponding to  98.276     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_Temperatures  : VALUE(#1) @COL#  2 is   19333.     [REF] vs   256.36     [OUT] corresponding to  98.674     [% RELATIVE TO MAX]   
Si_bulk/RT/13_elph_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-13_elph_0K_field_ad.energy  : VALUE(#365) @COL#  1 is   336.40     [REF] vs   215.00     [OUT] corresponding to  24.331     [% RELATIVE TO MAX]   
Si_bulk/RT/13_elph_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-13_elph_0K_field_ad.thermodynamics  : VALUE(#296) @COL# 10 is   752.59     [REF] vs   929.72     [OUT] corresponding to  9.8962     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b2  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b3  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b4  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b5  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b6  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b7  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b2  : VALUE(#31) @COL#  4 is -0.38014E-04 [REF] vs  0.90809E-07 [OUT] corresponding to  100.24     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b3  : VALUE(#32) @COL#  4 is -0.18310E-02 [REF] vs  0.14347E-02 [OUT] corresponding to  178.35     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b4  : VALUE(#32) @COL#  4 is -0.18310E-02 [REF] vs  0.14347E-02 [OUT] corresponding to  178.35     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b5  : VALUE(#379) @COL#  3 is -0.34054E-03 [REF] vs  0.28355E-05 [OUT] corresponding to  100.83     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b6  : VALUE(#31) @COL#  3 is -0.58288E-03 [REF] vs  0.56438E-04 [OUT] corresponding to  109.68     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b7  : VALUE(#31) @COL#  3 is -0.58288E-03 [REF] vs  0.56438E-04 [OUT] corresponding to  109.68     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b2  : VALUE(#301) @COL#  4 is -0.53850E-04 [REF] vs  0.70027E-11 [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b3  : VALUE(#31) @COL#  4 is -0.29619E-03 [REF] vs  0.87809E-04 [OUT] corresponding to  129.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b4  : VALUE(#31) @COL#  4 is -0.29619E-03 [REF] vs  0.87810E-04 [OUT] corresponding to  129.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b5  : VALUE(#386) @COL#  3 is -0.13645E-02 [REF] vs  0.13867E-02 [OUT] corresponding to  201.62     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b6  : VALUE(#384) @COL#  3 is -0.13796E-02 [REF] vs  0.22753E-04 [OUT] corresponding to  101.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Slk4-Nmpi8-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b7  : VALUE(#34) @COL#  3 is -0.28510E-04 [REF] vs  0.30682E-08 [OUT] corresponding to  100.01     [% RELATIVE TO MAX]   
Si_bulk/SC/06_h_using_colls-Slk4-Nmpi8-def_par-devel-rt-modularization/o-06_h_using_colls.SC_E_History  : VALUE(#1) @COL#  3 is  0.23242     [REF] vs  0.18734E-03 [OUT] corresponding to  232.23     [% RELATIVE TO MAX]   
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Section Duration : 0:21:50 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

Branch                  :devel-rt-modularization
==================================================================================
Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-51
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=2)(Threads=2)(SLK=4)] - single, default parallelization
=--------------------------------------------------------------------------------=
AlAs/RT/03_rt_delta_ip_adaptative-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-03_rt_delta_ip_adaptative.energy  : VALUE(#42) @COL#  3 is  0.59278E-08 [REF] vs  0.48353E-08 [OUT] corresponding to  13.257     [% RELATIVE TO MAX]   
AlAs/RT/03_rt_delta_ip_adaptative_cache-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-03_rt_delta_ip_adaptative_cache.energy  : VALUE(#44) @COL#  3 is  0.52966E-08 [REF] vs  0.45405E-08 [OUT] corresponding to  9.1751     [% RELATIVE TO MAX]   
AlAs/RT/04_rt_delta_ip_adaptative_cache_restart-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_rt_delta_ip_adaptative_cache_restart.energy  : VALUE(#2) @COL#  2 is -0.13159E-08 [REF] vs -0.11560E-08 [OUT] corresponding to  11.885     [% RELATIVE TO MAX]   
H2/RT/02_tdh-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_tdh.thermodynamics  : VALUE(#129) @COL#  9 is -0.18015E-02 [REF] vs  0.90073E-03 [OUT] corresponding to  110.70     [% RELATIVE TO MAX]   
H2/RT/02_tdh_coll-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_tdh_coll.thermodynamics  : VALUE(#18) @COL#  9 is -0.24696E-02 [REF] vs  0.82320E-03 [OUT] corresponding to  122.78     [% RELATIVE TO MAX]   
H2/RT/03_tdlda-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-03_tdlda.thermodynamics  : VALUE(#111) @COL#  9 is  0.74439E-03 [REF] vs -0.14888E-02 [OUT] corresponding to  101.05     [% RELATIVE TO MAX]   
H2/RT/03_tdlda_coll-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-03_tdlda_coll.thermodynamics  : VALUE(#118) @COL#  9 is -0.14889E-02 [REF] vs  0.14889E-02 [OUT] corresponding to  131.88     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-03_td_ip.energy  : VALUE(#190) @COL#  3 is  0.60165E-08 [REF] vs  0.65344E-08 [OUT] corresponding to  6.1961     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip+qp-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-03_td_ip+qp.energy  : VALUE(#197) @COL#  3 is  0.61150E-08 [REF] vs  0.66768E-08 [OUT] corresponding to  6.5281     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip+qp_vel-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-03_td_ip+qp_vel.energy  : VALUE(#197) @COL#  2 is -0.43507E-08 [REF] vs -0.48548E-08 [OUT] corresponding to  5.3706     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip_radiative-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-03_td_ip_radiative.thermodynamics  : VALUE(#2) @COL#  9 is   25273.     [REF] vs   23759.     [OUT] corresponding to  5.9931     [% RELATIVE TO MAX]   
hBN/RT/03_td_ip_vel-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-03_td_ip_vel.energy  : VALUE(#94) @COL#  2 is -0.49251E-08 [REF] vs -0.53877E-08 [OUT] corresponding to  5.1544     [% RELATIVE TO MAX]   
hBN/RT/04_td_har_coll-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_td_har_coll.energy  : VALUE(#167) @COL#  3 is  0.19312E-08 [REF] vs  0.13721E-08 [OUT] corresponding to  8.6405     [% RELATIVE TO MAX]   
hBN/RT/04_td_hartree-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_td_hartree.energy  : VALUE(#91) @COL#  3 is  0.55319E-08 [REF] vs  0.60096E-08 [OUT] corresponding to  7.3661     [% RELATIVE TO MAX]   
hBN/RT/04_td_hdft-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_td_hdft.energy  : VALUE(#142) @COL#  3 is  0.43851E-06 [REF] vs -0.10978E-06 [OUT] corresponding to  122.96     [% RELATIVE TO MAX]   
hBN/RT/04_td_hdft_coll-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_td_hdft_coll.energy  : VALUE(#172) @COL#  3 is  0.38569E-08 [REF] vs  0.44656E-08 [OUT] corresponding to  8.9551     [% RELATIVE TO MAX]   
hBN/RT/05_td_hf-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-05_td_hf.energy  : VALUE(#18) @COL#  3 is  0.12058E-07 [REF] vs  0.69364E-11 [OUT] corresponding to  99.942     [% RELATIVE TO MAX]   
hBN/RT/05_td_hf_fonly_coll-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-05_td_hf_fonly_coll.energy  : VALUE(#18) @COL#  3 is  0.11997E-07 [REF] vs  0.92603E-08 [OUT] corresponding to  22.809     [% RELATIVE TO MAX]   
hBN/RT/07_td_sex_restart-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_td_sex_restart.energy  : VALUE(#28) @COL#  3 is  0.52559E-05 [REF] vs -0.32721E-05 [OUT] corresponding to  102.35     [% RELATIVE TO MAX]   
hBN/RT/07_td_sex_restart-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_td_sex_restart.thermodynamics  : VALUE(#1) @COL#  9 is   429.00     [REF] vs   349.11     [OUT] corresponding to  18.428     [% RELATIVE TO MAX]   
hBN/RT/11_td_sex_dbgd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-11_td_sex_dbgd.energy  : VALUE(#197) @COL#  3 is -0.44061E-05 [REF] vs  0.21136E-05 [OUT] corresponding to  147.97     [% RELATIVE TO MAX]   
hBN/RT/11_td_sex_dbgd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-11_td_sex_dbgd.thermodynamics  : VALUE(#2) @COL# 10 is   1859.6     [REF] vs  0.14332E+06 [OUT] corresponding to  7607.2     [% RELATIVE TO MAX]   
hBN/RT/15_td_ip_dbgd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-15_td_ip_dbgd.energy  : VALUE(#29) @COL#  3 is  0.11439E-07 [REF] vs  0.27870E-08 [OUT] corresponding to  74.436     [% RELATIVE TO MAX]   
hBN/RT/15_td_ip_dbgd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-15_td_ip_dbgd.thermodynamics  : VALUE(#2) @COL# 10 is   1888.3     [REF] vs  0.14521E+06 [OUT] corresponding to  7590.2     [% RELATIVE TO MAX]   
Iron/abinit/Without-SOC/05_KERR_IP-RPA_vel-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-05_KERR_IP-RPA_vel.off_q1_IP  : VALUE(#18) @COL#  2 is  0.18000E-02 [REF] vs  0.18494E-02 [OUT] corresponding to  24.712     [% RELATIVE TO MAX]   
MoS2/pwscf/OPTICS/With-SOC/05_exciton_spin-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-05_exciton_spin.exc_qpt1_I+spin_sorted  : VALUE(#17) @COL#  3 is   32.000     [REF] vs   112.00     [OUT] corresponding to  42.105     [% RELATIVE TO MAX]   
MoS2/pwscf/OPTICS/Without-SOC-sp2/05_exciton_spin-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-05_exciton_spin.exc_qpt1_I+spin_sorted  : VALUE(#2) @COL#  4 is  0.90966     [REF] vs  0.53048E-05 [OUT] corresponding to  99.999     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_td_dft.energy  : VALUE(#36) @COL#  3 is -0.37711E-05 [REF] vs  0.84835E-05 [OUT] corresponding to  98.833     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_td_dft.magnetization  : VALUE(#  32) @AVERAGE# is -0.41044E-09 [REF] vs  0.21217E-08 [OUT] corresponding to  68.837     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_dft-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_td_dft.thermodynamics  : VALUE(#5) @COL#  8 is   852.81     [REF] vs   720.89     [OUT] corresponding to  15.469     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_td_ip.thermodynamics  : VALUE(#19) @COL#  8 is   769.40     [REF] vs   673.82     [OUT] corresponding to  12.422     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_td_ip_DbGd.energy  : VALUE(#39) @COL#  3 is  0.86574E-04 [REF] vs  0.61151E-06 [OUT] corresponding to  99.294     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_td_ip_DbGd.thermodynamics  : VALUE(#49) @COL#  8 is   760.23     [REF] vs   9772.2     [OUT] corresponding to  1077.2     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/04_td_ip_vel-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_td_ip_vel.thermodynamics  : VALUE(#7) @COL#  8 is   728.96     [REF] vs   816.80     [OUT] corresponding to  9.7952     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_td_sex.energy  : VALUE(#64) @COL#  3 is -0.46265E-05 [REF] vs -0.55030E-05 [OUT] corresponding to  13.284     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_td_sex.thermodynamics  : VALUE(#61) @COL#  8 is   1101.7     [REF] vs   1226.8     [OUT] corresponding to  10.013     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_td_sex_DbGd.energy  : VALUE(#47) @COL#  3 is  0.89885E-04 [REF] vs -0.24254E-05 [OUT] corresponding to  102.70     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_td_sex_DbGd.thermodynamics  : VALUE(#4) @COL# 10 is   1116.6     [REF] vs   17558.     [OUT] corresponding to  1446.3     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/06_td_sex_on_the_fly-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_td_sex_on_the_fly.energy  : VALUE(#64) @COL#  3 is -0.18298E-05 [REF] vs -0.21741E-05 [OUT] corresponding to  11.457     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ep-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ep.thermodynamics  : VALUE(#2) @COL#  8 is   1802.0     [REF] vs   2090.0     [OUT] corresponding to  15.982     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_E_Fermi  : VALUE(#8) @COL#  5 is -0.71141E+06 [REF] vs  0.36347     [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#1) @COL#  3 is   0.0000     [REF] vs  0.99998     [OUT] corresponding to 0.49999E+06 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#729) @COL#  4 is  0.93404E-05 [REF] vs   1.0000     [OUT] corresponding to  99.999     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#1000) @COL#  5 is -0.87738E-04 [REF] vs -0.69487E-03 [OUT] corresponding to  691.98     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#1000) @COL#  2 is -0.61035E-04 [REF] vs -0.48637E-03 [OUT] corresponding to  696.88     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is  0.82963     [REF] vs  0.12480E-06 [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_electrons_2_of_2  : VALUE(#597) @COL#  3 is   1.0000     [REF] vs  0.24727E-04 [OUT] corresponding to  99.997     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_holes_1_of_2  : VALUE(#435) @COL#  8 is -0.11921E-06 [REF] vs   0.0000     [OUT] corresponding to  16.667     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_dn_FIT_holes_2_of_2  : VALUE(#1000) @COL#  2 is -0.83447E-06 [REF] vs -0.26708     [OUT] corresponding to 0.32006E+08 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#113) @COL#  7 is  0.48383     [REF] vs  0.58227     [OUT] corresponding to  10.835     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#606) @COL#  2 is  0.99998     [REF] vs  0.94903E-04 [OUT] corresponding to  99.989     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#1) @COL#  8 is   0.0000     [REF] vs -0.56982E-04 [OUT] corresponding to  4345.5     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#352) @COL#  2 is -0.11921E-06 [REF] vs   0.0000     [OUT] corresponding to  8.3333     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_electrons_1_of_2  : VALUE(#587) @COL#  4 is  0.89991     [REF] vs  0.13908     [OUT] corresponding to  76.082     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_electrons_2_of_2  : VALUE(#597) @COL#  3 is   1.0000     [REF] vs  0.25726E-04 [OUT] corresponding to  99.997     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_holes_1_of_2  : VALUE(#999) @COL#  6 is -0.23842E-06 [REF] vs -0.24778E-01 [OUT] corresponding to 0.10393E+08 [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_occupations_up_FIT_holes_2_of_2  : VALUE(#494) @COL#  4 is   0.0000     [REF] vs -0.11921E-06 [OUT] corresponding to  14.286     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/07_ypp_fit_occ-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-07_ypp_fit_occ.YPP-RT_Temperatures  : VALUE(#8) @COL#  5 is  0.13793E+10 [REF] vs   2454.2     [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ep_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ep_DbGd.energy  : VALUE(#34) @COL#  4 is  0.45013E-03 [REF] vs  0.34415E-04 [OUT] corresponding to  92.354     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ep_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ep_DbGd.thermodynamics  : VALUE(#105) @COL#  9 is   1522.7     [REF] vs   51011.     [OUT] corresponding to  2818.6     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_E_Fermi  : VALUE(#3) @COL#  6 is   6.0266     [REF] vs  0.58098     [OUT] corresponding to  90.360     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#458) @COL#  3 is -0.25731E-03 [REF] vs -0.97828     [OUT] corresponding to  97.802     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#502) @COL#  4 is -0.57029E-02 [REF] vs -0.95790     [OUT] corresponding to  95.219     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#688) @COL#  3 is -0.11179E-01 [REF] vs -0.99494     [OUT] corresponding to  98.376     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#654) @COL#  4 is -0.13990E-01 [REF] vs -0.99227     [OUT] corresponding to  97.828     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_electrons_1_of_2  : VALUE(#579) @COL#  3 is -0.98802     [REF] vs   0.0000     [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_electrons_2_of_2  : VALUE(#588) @COL#  2 is  -1.0000     [REF] vs -0.11146     [OUT] corresponding to  88.853     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_holes_1_of_2  : VALUE(#668) @COL#  3 is -0.38178     [REF] vs -0.62305     [OUT] corresponding to  24.127     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_dn_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.40315E-02 [REF] vs -0.37885     [OUT] corresponding to  9297.1     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#302) @COL#  9 is -0.57309     [REF] vs -0.17751     [OUT] corresponding to  68.819     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#509) @COL#  2 is -0.99974     [REF] vs -0.20053     [OUT] corresponding to  79.937     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#1000) @COL#  9 is -0.69553E-02 [REF] vs -0.33828     [OUT] corresponding to  4763.6     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.21476E-01 [REF] vs -0.54653     [OUT] corresponding to  2444.8     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_electrons_1_of_2  : VALUE(#945) @COL#  8 is -0.14699E-01 [REF] vs -0.84941E-01 [OUT] corresponding to  477.88     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_electrons_2_of_2  : VALUE(#947) @COL#  3 is -0.48703E-01 [REF] vs -0.12276     [OUT] corresponding to  152.07     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_holes_1_of_2  : VALUE(#953) @COL#  4 is -0.99264     [REF] vs -0.16853E-01 [OUT] corresponding to  97.640     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_occupations_up_FIT_holes_2_of_2  : VALUE(#1000) @COL#  4 is -0.50708E-01 [REF] vs -0.37630     [OUT] corresponding to  642.09     [% RELATIVE TO MAX]   
MoS2/pwscf/RT/08_ypp_fit_occ_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-08_ypp_fit_occ_DbGd.YPP-RT_Temperatures  : VALUE(#2) @COL#  5 is   4714.7     [REF] vs   0.0000     [OUT] corresponding to  83.736     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_E_Fermi  : VALUE(#1) @COL#  3 is   1.2076     [REF] vs   1.1333     [OUT] corresponding to  6.1531     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_occupations_FIT_electrons  : VALUE(#115) @COL#  2 is   1.5081     [REF] vs  0.77838     [OUT] corresponding to  36.486     [% RELATIVE TO MAX]   
Si_bulk/RT/02_carriers_Fermi_fit_DB-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_carriers_Fermi_fit_DB.YPP-RT_Temperatures  : VALUE(#1) @COL#  3 is   513.69     [REF] vs   636.25     [OUT] corresponding to  23.858     [% RELATIVE TO MAX]   
Si_bulk/RT/02_elph_0K_adaptative-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_elph_0K_adaptative.energy  : VALUE(#169) @COL#  1 is   191.88     [REF] vs   117.76     [OUT] corresponding to  37.142     [% RELATIVE TO MAX]   
Si_bulk/RT/02_elph_0K_adaptative-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_elph_0K_adaptative.thermodynamics  : VALUE(#169) @COL#  1 is   191.88     [REF] vs   117.76     [OUT] corresponding to  37.142     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b2  : VALUE(#6) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b3  : VALUE(#6) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b4  : VALUE(#6) @COL#  4 is  -40.626     [REF] vs   40.626     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b5  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b6  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/02_plot_elph_0K_adaptative-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-02_plot_elph_0K_adaptative.YPP-RT_occupations_k1_kRT1_b7  : VALUE(#1) @COL#  3 is  -20.348     [REF] vs   20.348     [OUT] corresponding to  200.00     [% RELATIVE TO MAX]   
Si_bulk/RT/03_elel-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-03_elel.carriers  : VALUE(#37) @COL#  2 is -0.59605E-07 [REF] vs -0.10133E-05 [OUT] corresponding to  5.7143     [% RELATIVE TO MAX]   
Si_bulk/RT/03_fit_elel-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-03_fit_elel.YPP-RT_NEQ_linewidths_2_of_2  : VALUE(#3) @COL#  3 is -0.79069E-02 [REF] vs -0.70959E-02 [OUT] corresponding to  5.4795     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_E_Fermi  : VALUE(#11) @COL#  5 is  -1.3477     [REF] vs  0.41337     [OUT] corresponding to  29.096     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_EE_widths_ratio_FIT_electrons_1_of_2  : VALUE(#25) @COL#  4 is  0.56918     [REF] vs   1.9935     [OUT] corresponding to  226.13     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_EE_widths_ratio_FIT_electrons_2_of_2  : VALUE(#28) @COL#  2 is  0.55648     [REF] vs   1.9947     [OUT] corresponding to  230.68     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_NEQ_linewidths_2_of_2  : VALUE(#3) @COL#  4 is -0.28384E-02 [REF] vs -0.36493E-02 [OUT] corresponding to  13.793     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#26) @COL#  6 is  0.56232     [REF] vs   1.9922     [OUT] corresponding to  228.90     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#26) @COL#  3 is  0.56128     [REF] vs   1.9935     [OUT] corresponding to  229.72     [% RELATIVE TO MAX]   
Si_bulk/RT/04_fit_elel_plasma-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-04_fit_elel_plasma.YPP-RT_Temperatures  : VALUE(#9) @COL#  5 is   19740.     [REF] vs   272.11     [OUT] corresponding to  35.754     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_E_Fermi  : VALUE(#1) @COL#  3 is   4.5594     [REF] vs  -4.9769     [OUT] corresponding to  209.16     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_occupations_FIT_electrons  : VALUE(#1) @COL#  2 is   1.5948     [REF] vs  0.17252     [OUT] corresponding to  89.183     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_occupations_FIT_holes  : VALUE(#961) @COL#  2 is  -1.6115     [REF] vs -0.28664E-02 [OUT] corresponding to  97.287     [% RELATIVE TO MAX]   
Si_bulk/RT/06_carriers_fit_DB_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_carriers_fit_DB_DbGd.YPP-RT_Temperatures  : VALUE(#1) @COL#  2 is   25930.     [REF] vs   256.36     [OUT] corresponding to  99.011     [% RELATIVE TO MAX]   
Si_bulk/RT/06_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_elph_0K_DbGd.energy  : VALUE(#201) @COL#  3 is   5.5450     [REF] vs  0.11408     [OUT] corresponding to  97.943     [% RELATIVE TO MAX]   
Si_bulk/RT/06_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_elph_0K_DbGd.thermodynamics  : VALUE(#1) @COL# 10 is   0.0000     [REF] vs  0.50955E+06 [OUT] corresponding to  197.36     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_E_Fermi  : VALUE(#5) @COL#  3 is   1.5215     [REF] vs  -5.8729     [OUT] corresponding to  307.45     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is   1.9143     [REF] vs  0.15023     [OUT] corresponding to  92.152     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_electrons_2_of_2  : VALUE(#4) @COL#  4 is   1.9331     [REF] vs  0.14260     [OUT] corresponding to  92.463     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_1_of_2  : VALUE(#967) @COL#  9 is  -1.9859     [REF] vs -0.11257E-02 [OUT] corresponding to  99.417     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_EP_widths_ratio_FIT_holes_2_of_2  : VALUE(#966) @COL#  4 is  -1.9912     [REF] vs -0.54419E-03 [OUT] corresponding to  99.626     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_electrons_1_of_2  : VALUE(#1) @COL#  9 is   1.5965     [REF] vs  0.74412E-01 [OUT] corresponding to  95.339     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_electrons_2_of_2  : VALUE(#1) @COL#  4 is   1.6757     [REF] vs  0.69827E-01 [OUT] corresponding to  95.833     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_holes_1_of_2  : VALUE(#963) @COL#  9 is  -1.9363     [REF] vs -0.55561E-02 [OUT] corresponding to  97.528     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_occupations_FIT_holes_2_of_2  : VALUE(#962) @COL#  4 is  -1.9586     [REF] vs -0.37419E-02 [OUT] corresponding to  98.276     [% RELATIVE TO MAX]   
Si_bulk/RT/06_fit_elph_0K_DbGd-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_fit_elph_0K_DbGd.YPP-RT_Temperatures  : VALUE(#1) @COL#  2 is   19333.     [REF] vs   256.36     [OUT] corresponding to  98.674     [% RELATIVE TO MAX]   
Si_bulk/RT/13_elph_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-13_elph_0K_field_ad.energy  : VALUE(#365) @COL#  1 is   336.40     [REF] vs   215.00     [OUT] corresponding to  24.331     [% RELATIVE TO MAX]   
Si_bulk/RT/13_elph_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-13_elph_0K_field_ad.thermodynamics  : VALUE(#296) @COL# 10 is   752.59     [REF] vs   929.72     [OUT] corresponding to  9.8962     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b2  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b3  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b4  : VALUE(#383) @COL#  4 is -0.52839E-02 [REF] vs  0.52761E-02 [OUT] corresponding to  199.85     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b5  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b6  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k1_kRT1_b7  : VALUE(#31) @COL#  3 is -0.10010E-02 [REF] vs  0.71282E-03 [OUT] corresponding to  171.21     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b2  : VALUE(#31) @COL#  4 is -0.38014E-04 [REF] vs  0.90809E-07 [OUT] corresponding to  100.24     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b3  : VALUE(#32) @COL#  4 is -0.18310E-02 [REF] vs  0.14347E-02 [OUT] corresponding to  178.35     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b4  : VALUE(#32) @COL#  4 is -0.18310E-02 [REF] vs  0.14347E-02 [OUT] corresponding to  178.35     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b5  : VALUE(#379) @COL#  3 is -0.34054E-03 [REF] vs  0.28355E-05 [OUT] corresponding to  100.83     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b6  : VALUE(#31) @COL#  3 is -0.58288E-03 [REF] vs  0.56438E-04 [OUT] corresponding to  109.68     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k2_kRT2_b7  : VALUE(#31) @COL#  3 is -0.58288E-03 [REF] vs  0.56438E-04 [OUT] corresponding to  109.68     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b2  : VALUE(#301) @COL#  4 is -0.53850E-04 [REF] vs  0.70027E-11 [OUT] corresponding to  100.00     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b3  : VALUE(#31) @COL#  4 is -0.29619E-03 [REF] vs  0.87809E-04 [OUT] corresponding to  129.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b4  : VALUE(#31) @COL#  4 is -0.29619E-03 [REF] vs  0.87810E-04 [OUT] corresponding to  129.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b5  : VALUE(#386) @COL#  3 is -0.13645E-02 [REF] vs  0.13867E-02 [OUT] corresponding to  201.62     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b6  : VALUE(#384) @COL#  3 is -0.13796E-02 [REF] vs  0.22753E-04 [OUT] corresponding to  101.65     [% RELATIVE TO MAX]   
Si_bulk/RT/14_plot_0K_field_ad-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-14_plot_0K_field_ad.YPP-RT_occupations_k3_kRT3_b7  : VALUE(#34) @COL#  3 is -0.28510E-04 [REF] vs  0.30682E-08 [OUT] corresponding to  100.01     [% RELATIVE TO MAX]   
Si_bulk/SC/06_h_using_colls-Omp2-Slk4-Nmpi2-def_par-devel-rt-modularization/o-06_h_using_colls.SC_E_History  : VALUE(#1) @COL#  3 is  0.23242     [REF] vs  0.89407E-05 [OUT] corresponding to  232.41     [% RELATIVE TO MAX]   
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Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 22-07
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[serial] - none
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Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 22-44
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)] - single, default parallelization
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Branch                  :devel-rt-modularization
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Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-05
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)] - single, random parallelization
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Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-30
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=8)(SLK=4)] - single, default parallelization
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Running tests           :all
Projects                : sc rt pl elph kerr magnetic nl hard nopj qp-dbs p2y a2y
Date - Time             :Oct-27-Tue - 23-51
Compilation Scheme      :default.sh
Build                   :devel-rt-modularization - MPI+OpenMP+SLK+SLEPC+HDF5_IO - MPICH - gfortran - rev.18823
Fortran                 :gfortran  GNU Fortran (Debian 8.3.0-6) 8.3.0
MPI                     : MPICH Version:	3.3.2
Compilation Precision   :single
Parallel Conf           :[(N=2)(Threads=2)(SLK=4)] - single, default parallelization
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