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DCM-UPB/RPMD_Mainz
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Flexible Water with Multiple Time Steps and Beadiabatic: -------------------------------------------------------- dvdr holds low frequency forces dvdr2 holds high frequency forces. RP Contraction: ---------------- Splits the LJ and ewald from the intramolecular force and uses RP contraction on them. 07-03-08: Split LJ into a new subroutine. Beadiabatic forces routine is now passed iopt which determines which part of the force routine to perform beadiabatic separation on. 3 Split (3s) version : uses a different number of normal modes for the ewald sum as for the LJ. 10_03_07 : added rg routine static properties calculation 10_03_07_05 : beadd stores and repaces r rather than backwards FT. 11_03: added normal mode as primitive represenation (evolve_nm) which dramatically speeds up the beadiabatic program when used with large multiple time steps (e.g. MTS=5 or MTS=10) since it reduces the FTs from 44 per timestep to 23 at MTS=1 and 8 per timestep to 5 per timestep at MTS = 1. Beadiabatic evolution also incorporated into normal mode primtive scheme using beadd_forces_nm subroutine which takes in positions in normal mode rep and produces normal mode forces. 13_03 : RDF speeded up 13_03_p : Program now reads parameters from a parameter file. Code tidied up using ftnchek. mts is now in input file. 16_03 : Output of <vinter>,<vintra>,<tintra>,<tinter> seperately. Improved handling of exact estimators. 02_04: Added output of ewald and LJ energies seperately. 03_04: CHANGE IN ORDERING OF BEADD NORMAL MODE FREQUENCIES 14_05 : Program code cleaned up. 20_04: OCF for Classical fixed. ACMD evolution added. 01_05: Smeared Charge Ewald intermolecular and Fourth Order Morse intramolecular added. 06-05-f : Ice starting configuration. FCC initial lattice and non-cubic ewald. 12-05 : OCF problems fixed 30-05 : Linked cell list for LJ - used when nm = 700 or above. 09-06 : Major speed improvements in LJ evaluation and electrostatic contraction scheme. For large systems a linked cell list is used to create the neighbour list. 26-06 : Added knowledge of M-site to electrostatic RP contraction. Note:// still cannot use smeared charges with electrostatic contraction scheme in this version. Renamed to water_'date' from water_bea_nm_'date'-demwald. 03-07 : Minor changes. Param file now contains masses. 08-07 : tem RP electrostatic contraction implemented. Replacing dem method (although routines still included) 09-07 : Minor fixes to problems that stopped earlier versions comiling correctly using g77. Final version written in g77 :-(. 09-07-f90 : Program converted to take advantage of fortran 90. Allocatable arrays used allowing the use of large system sizes. Globals.inc no longer contains fixed size array parameters. 3-08 : Non-cubic linked cell list for non-cubic LJ and rwald. 4-08 : Non-cubic smeared charges added. Pressure calculation and Berendsen barostat. 5-08 : Cubic pressure calculation added. RP contraction NPT now working. 31-08 : Interface setup, Non-isotropic berendsen barostat, Option for harmonic bend with anharmonic stretch. 05-09 : Rigid water evolution added for NVT. Rigid virial not yet complete. 08-09 : Rigid NPT complete. 09-09 : Buckingham O-O interaction added. 16_09im : A few small problems removed and unneccesary variables culled. 13-10 : Dielectric constant calculation error corrected. RDF calculation and exact estimators now controlled by switches in input file. 14-10 : Improved SHAKE/RATTLE routine. Also fixed crashingof classical simualtions when beadiabatic paramaters set and density profile error in the melting routine. 16-10 : Parinello global thermostat implemented for classical rigid and flexible simulations. Parinello local thermostat also availiable : for relative merits see Comput. Phys. Comm. 179 (2008) p26-29. 5-11 : Additional NPT and pressure properties calculated by md_static routine. Fixed bug in rigid classical barostat. 29-01-09 : MAJOR sampling fix done! 23-02-09 : Changed to Fortran 90 Possible Future additions: --------------------------- 1.) Inclusion of Solute atoms/molecule. 2.) RP electrostatic contraction for smeared charges. 3.) NPT simulation / pressure calculation. 4.) Polarizability. 5.) Generalize solvent treatment. Input parameters: ------------------ ens - ensemble - option of NVT or NPT isotope - Type of molecule (D2O, HDO, H2O (Default)) temp - temperature in K pres - pressure in bar rho - density in g cm**(-3) lattice - Starting lattice : CUB, FCC, ICE or VAC vacfac - Factor for Surface (VACuum) Calculation ncellxyz = x y z*vacfac iamcub - Allows selection of non-cubic vs cubic energy evaluation dtfs - time step in fs ecut - Ewald sum accuracy parameter. Set to 0.d0 for automatic selection of ewald parameters nt - Dynamic simulation trajectory length ne - Equilibration steps ntherm - Number of Steps between parallel trajectories nb - Number of beads m - Number of dynamic trajectories ng - Number of static property sampling steps print - Integers controlling which properties should be printed/saved (4 integers, 1 or 0: Positions, Forces, Velocities, molecular dipolemoment) pt - Print trajectory interval pb - Print beads interval ncellxyz - Number of cells in each direction for initialization (3 integers) irun - Random number seed (integer) itcf - Integers controlling calculation of dynamic properties (3 integers, 1 or 0: Cvv, Dipole Spectrum (IR), OCF) itst - Integers controlling calculation of static properties (2 integers, 1 or 0: RDF, Exact Estimators) rcut - Real-space cut-off for LJ interactions in Angstroms type - Type of calculation: RPMD or ACMD therm - Thermostat - NON(None),AND(Anderson),PRL(Parrinello Local),PRG(Parrinello Global), (....also GLE!) ttaufs - tau parameter for Parrinello thermostats baro - Barostat, 'BER' or 'MCI' taufs - tau parameter for barostat mts - Number of multiple time steps om - ACMD adiabatic separation parameter. nbdf1 - RP contraction modes for ewald forces (set to zero for full nb, set to 1 for electrostatic contraction) nbdf2 - RP contraction modes for LJ forces (set to zero for full nb) nbdf3 - RP contraction modes for RPMDDFT forces sig - Electrostatic RP Contraction cut-off (Angstroms, usually ~ 5.0) rpmddft - Use RPMDDFT force Calculation rpmde3b - ALso calculate E3B (in addition to the usual force field). Does not work with RPMDDFT. rctdk - Use the T.D. Kühne Method (important nbdf1 and nbdf2 have to be 0, nbdf3 is the delta Force contraction) aieq - Use RPMDDFT forces for equilibration too Parameters for popular water model ----------------------------------- SPC/F ------ ¶m wmass = 32831.2525d0 omass = 29156.9471d0 hmass = 1837.1527d0 qo = -0.82d0 alpha = 1.d0 oo_sig = 5.98098d0 oo_eps = 2.477083d-4 oo_gam = 0.d0 thetad = 109.47d0 reoh = 1.889726d0 de = 0.d0 alp = 0.d0 deb = 0.d0 alpb = 0.d0 wm = 0.d0 wh = 0.d0 &end SPCFW ------ ¶m wmass = 32831.2525d0 omass = 29156.9471d0 hmass = 1837.1527d0 qo = -0.82d0 alpha = 1.d0 oo_sig = 5.981913d0 oo_eps = 2.47686d-4 oo_gam = 0.d0 thetad = 113.24d0 reoh = 1.912403d0 apot = 0.472655d0 bpot = 0.120954d0 alp = 0.d0 alpb = 0.d0 wm = 0.d0 wh = 0.d0 &end TIP3P/FS -------- ¶m wmass = 32831.2525d0 omass = 29156.9471d0 hmass = 1837.1527d0 qo = -0.834d0 alpha = 1.d0 oo_sig = 5.95377d0 oo_eps = 2.42542d-4 oo_gam = 0.d0 thetad = 104.5d0 reoh = 1.814137d0 apot = 0.4726468d0 bpot = 0.10850d0 alp = 0.d0 alpb = 0.d0 wm = 0.d0 wh = 0.d0 &end QSPCFW ------- ¶m wmass = 32831.2525d0 omass = 29156.9471d0 hmass = 1837.1527d0 qo = -0.84d0 alpha = 1.d0 oo_sig = 5.981913d0 oo_eps = 2.47686d-4 oo_gam = 0.d0 thetad = 112.d0 reoh = 1.889726d0 apot = 0.472655d0 bpot = 0.120954d0 alp = 0.d0 alpb = 0.d0 wm = 0.d0 wh = 0.d0 &end Scott's potential ------------------ ¶m wmass = 32831.2525d0 omass = 29156.9471d0 hmass = 1837.1527d0 qo = -1.084d0 alpha = 0.797d0 oo_sig = 5.761d0 oo_eps = 3.5211d-4 oo_gam = 0.d0 thetad = 106.416d0 reoh = 1.77956d0 apot = 0.17d0 bpot = 0.52d0 alp = 1.22d0 alpb = 0.37d0 wm = 0.482d0 wh = 0.686d0 &end TIP4P/05 rigid --------------- ¶m wmass = 32831.2525d0 omass = 29156.9471d0 hmass = 1837.1527d0 qo = -1.1128d0 alpha = 0.73612d0 sigma = 5.96946d0 epslon = 2.95147d-4 thetad = 104.52d0 reoh = 1.8088465d0 apot = 0.d0 bpot = 0.d0 alp = 0.d0 alpb = 0.d0 wm = 0.d0 wh = 0.d0 &end TIP4P/05 flexible - Scott -------------------------- ¶m wmass = 32831.2525d0 omass = 29156.9471d0 hmass = 1837.1527d0 qo = -1.1128d0 alpha = 0.73612d0 oo_sig = 5.96946d0 oo_eps = 2.95147d-4 oo_gam = 0.d0 thetad = 107.4d0 reoh = 1.78d0 apot = 0.185d0 bpot = 0.07d0 alp = 1.21d0 alpb = 0.d0 wm = 0.d0 wh = 0.d0 &end LJ : ----- TIP4P/2005 : epslon = 2.95147d-4 sigma = 5.96946d0 TIP4P : epslon = 2.47012d-4 sigma = 5.96020d0 SPC : epslon = 2.477083d-4 sigma = 5.98098d0 q-SPC/Fw : epslon = 2.4768586d-4 sigma = 5.981913d0 Charges and alpha : -------------------- TIP4P/2005 : qo = -1.1128d0 alpha = 0.73612d0 TIP4P : qo = -1.04d0 alpha = 0.74398d0 SPC/F : qo = -0.82d0 alpha = 1.d0 q-SPC/Fw : qo = -0.84d0 alpha = 1.d0
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