Esempio n. 1
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 def __init__(self,
              structure,
              spec,
              functional='PBE',
              sym_prec=0.01,
              **kwargs):
     """
     Supports the same kwargs as :class:`JSONVaspInputSet`.
     """
     with open(os.path.join(MODULE_DIR, "GWVaspInputSet.json")) as f:
         DictSet.__init__(self,
                          "MP Static exact diagonalization",
                          json.load(f),
                          sort_structure=False,
                          **kwargs)
     self.structure = structure
     self.tests = self.__class__.get_defaults_tests()
     self.convs = self.__class__.get_defaults_convs()
     self.functional = functional
     self.sym_prec = sym_prec
     self.user_kpoints_settings = {}
     self.set_dens(spec)
     npar = self.get_npar(self.structure)
     #single step exact diagonalization, output WAVEDER
     self.user_incar_settings.update({
         "ALGO": "Exact",
         "NELM": 1,
         "LOPTICS": "TRUE"
     })
     # for large systems exact diagonalization consumes too much memory
     self.set_gw_bands(15)
     self.user_incar_settings.update({"NPAR": npar})
Esempio n. 2
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 def gen_mol_sp(self, pmgmol, charge, wdir):
     config = load_yaml_config('lateng_hse_d3bj_sp')
     boxs = boxstructure(pmgmol)
     boxs._charge = charge
     vasp_set = DictSet(boxs,
                        config,
                        use_structure_charge=True,
                        user_kpoints_settings=onekpoints)
     vasp_set.write_input(wdir)
Esempio n. 3
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    def __init__(self,
                 name,
                 incar,
                 poscar,
                 kpoints,
                 potcar=None,
                 qadapter=None,
                 script_name='submit_script',
                 vis_logger=None,
                 reuse_path=None,
                 test=False,
                 **kwargs):
        """
        default INCAR from config_dict

        """
        self.name = name
        self.test = test
        #print (test)
        self.incar_init = Incar.from_dict(incar.as_dict())
        self.poscar_init = Poscar.from_dict(poscar.as_dict())
        if not self.test:
            self.potcar_init = Potcar.from_dict(potcar.as_dict())
        if not isinstance(kpoints, str):
            self.kpoints_init = Kpoints.from_dict(kpoints.as_dict())
            #print (kpoints)
        else:
            self.kpoints_init = kpoints
        self.reuse_path = reuse_path  # complete reuse paths
        self.extra = kwargs
        if qadapter is not None:
            self.qadapter = qadapter.from_dict(qadapter.to_dict())
        else:
            self.qadapter = None
        self.script_name = script_name
        config_dict = {}
        config_dict['INCAR'] = self.incar_init.as_dict()
        config_dict['POSCAR'] = self.poscar_init.as_dict()
        # caution the key and the value are not always the same
        if not self.test:
            config_dict['POTCAR'] = self.potcar_init.as_dict()
        # dict(zip(self.potcar.as_dict()['symbols'],
        # self.potcar.as_dict()['symbols']))
        if not isinstance(kpoints, str):
            #print (self.kpoints_init)
            config_dict['KPOINTS'] = self.kpoints_init.as_dict()
        else:
            # need to find a way to dictify this kpoints string more
            # appropriately
            config_dict['KPOINTS'] = {'kpts_hse': self.kpoints_init}
        # self.user_incar_settings = self.incar.as_dict()
        DictSet.__init__(self, poscar.structure, config_dict)
        #**kwargs)
        if vis_logger:
            self.logger = vis_logger
        else:
            self.logger = logger
Esempio n. 4
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    def __init__(self, name, incar, poscar, kpoints, potcar=None,
                 qadapter=None, script_name='submit_script',
                 vis_logger=None, reuse_path=None, test=False,
                 **kwargs):
        """
        default INCAR from config_dict

        """
        self.name = name
        self.test = test
        self.incar_init = Incar.from_dict(incar.as_dict())
        self.poscar_init = Poscar.from_dict(poscar.as_dict())
        if not self.test:
            self.potcar_init = Potcar.from_dict(potcar.as_dict())
        if not isinstance(kpoints, str):
            self.kpoints_init = Kpoints.from_dict(kpoints.as_dict())
        else:
            self.kpoints_init = kpoints
        self.reuse_path = reuse_path  # complete reuse paths
        self.extra = kwargs
        if qadapter is not None:
            self.qadapter = qadapter.from_dict(qadapter.to_dict())
        else:
            self.qadapter = None
        self.script_name = script_name
        config_dict = {}
        config_dict['INCAR'] = self.incar_init.as_dict()
        config_dict['POSCAR'] = self.poscar_init.as_dict()
        # caution the key and the value are not always the same
        if not self.test:
            config_dict['POTCAR'] = self.potcar_init.as_dict()
        # dict(zip(self.potcar.as_dict()['symbols'],
        # self.potcar.as_dict()['symbols']))
        if not isinstance(kpoints, str):
            config_dict['KPOINTS'] = self.kpoints_init.as_dict()
        else:
            # need to find a way to dictify this kpoints string more
            # appropriately
            config_dict['KPOINTS'] = {'kpts_hse':self.kpoints_init}
        # self.user_incar_settings = self.incar.as_dict()
        DictSet.__init__(self, poscar.structure, config_dict)
                         #**kwargs)
        if vis_logger:
            self.logger = vis_logger
        else:
            self.logger = logger
Esempio n. 5
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 def get_mol_nelect(self, pmgmol, charge):
     config = load_yaml_config('lateng_pbe_d3bj_relax')
     boxs = boxstructure(pmgmol)
     boxs._charge = charge
     vasp_set = DictSet(boxs,
                        config,
                        use_structure_charge=True,
                        user_kpoints_settings=onekpoints)
     return vasp_set.nelect
Esempio n. 6
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 def __init__(self,
              structure,
              spec,
              functional='PBE',
              sym_prec=0.01,
              **kwargs):
     """
     Supports the same kwargs as :class:`JSONVaspInputSet`.
     """
     with open(os.path.join(MODULE_DIR, "GWVaspInputSet.json")) as f:
         DictSet.__init__(self,
                          "MP Static Self consistent run for GW",
                          json.load(f),
                          sort_structure=False,
                          **kwargs)
     self.structure = structure
     self.tests = self.__class__.get_defaults_tests()
     self.convs = self.__class__.get_defaults_convs()
     self.user_kpoints_settings = {}
     self.functional = functional
     self.set_dens(spec)
     self.sym_prec = sym_prec
Esempio n. 7
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 def __init__(self,
              structure,
              spec,
              functional='PBE',
              sym_prec=0.01,
              **kwargs):
     """
     Supports the same kwargs as :class:`JSONVaspInputSet`.
     """
     with open(os.path.join(MODULE_DIR, "GWVaspInputSet.json")) as f:
         DictSet.__init__(self,
                          "MP Static G0W0",
                          json.load(f),
                          sort_structure=False,
                          **kwargs)
     self.structure = structure
     self.tests = self.__class__.get_defaults_tests()
     self.convs = self.__class__.get_defaults_convs()
     self.functional = functional
     self.user_kpoints_settings = {}
     self.sym_prec = sym_prec
     npar = self.get_npar(structure)
     # G0W0 calculation with reduced cutoff for the response function
     self.user_incar_settings.update({
         "ALGO": "GW0",
         "ENCUTGW": 250,
         "LWAVE": "FALSE",
         "NELM": 1
     })
     self.set_dens(spec)
     self.nomega_max = 2 * self.get_kpoints(structure).kpts[0][0]**3
     nomega = npar * int(self.nomega_max / npar)
     self.set_gw_bands(15)
     self.user_incar_settings.update({"NPAR": npar})
     self.user_incar_settings.update({"NOMEGA": nomega})
     self.tests = self.__class__.get_defaults_tests()
Esempio n. 8
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def main():
    df = pd.read_csv('calc_data.csv')
    converged = df['converged'] == True
    few_steps = df['ionic_steps'] < 10

    to_run = list(df[converged & few_steps].iloc[:, 0])

    converged_calculations = []
    for converged_calculation in tqdm(to_run):
        if os.path.exists(
                f'mkdir {converged_calculation}/../run.final') == False:
            os.system(f'mkdir {converged_calculation}/../run.final')
            outcar = Outcar(f'{converged_calculation}/OUTCAR')
            mags = [i['tot'] for i in outcar.magnetization]
            structure = Poscar.from_file(
                f'{converged_calculation}/CONTCAR').structure
            structure.add_site_property('magmom', mags)
            incar = Incar.from_file(f'{converged_calculation}/INCAR')
            incar.update(static_params)
            try:
                del incar['MAGMOM']
            except:
                None
            potcar = Potcar.from_file(f'{converged_calculation}/POTCAR')
            calculation = DictSet(structure, {
                'INCAR': incar,
                'POTCAR': potcar
            })
            calculation.incar.write_file(
                f'{converged_calculation}/../run.final/INCAR')
            calculation.poscar.write_file(
                f'{converged_calculation}/../run.final/POSCAR')
            os.system(
                f'cp {converged_calculation}/POTCAR {converged_calculation}/../run.final ; cp {converged_calculation}/job.sh {converged_calculation}/../run.final'
            )
            os.system(
                f'touch {converged_calculation}/../run.final/vasp_out ; touch {converged_calculation}/../run.final/vasprun.xml'
            )
Esempio n. 9
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def slabs_to_file(list_of_slabs, structure, make_fols, make_input_files,
                  config_dict, fmt, name, **save_slabs_kwargs):
    """
    Saves the slabs to file, optionally creates input files. The function can
    take any relevant keyword argument for DictSet.

    Args:
        list_of_slabs (`list`): a list of slab dictionaries made with either of
            surfaxe.generation get_slab functions
        structure (`str`): Filename of bulk structure file in any format
            supported by pymatgen.
        make_fols (`bool`): Makes folders for each termination and slab/vacuum
            thickness combinations containing structure files.

            * ``True``: A Miller index folder is created, in which folders
              named slab_vac_index are created to which the relevant structure
              files are saved.

                    E.g. for a (0,0,1) slab of index 1 with a slab thickness of
                    20 Å and vacuum thickness of 30 Å the folder structure would
                    be: ``001/20_30_1/POSCAR``

            * ``False``: The indexed structure files are put in a folder named
              after the bulk formula.

                    E.g. for a (0,0,1) MgO slab of index 1 with a slab thickness
                    of 20 Å and vacuum thickness of 30 Å the folder structure
                    would be: ``MgO/POSCAR_001_20_30_1.vasp``

        make_input_files (`bool`): Makes INCAR, POTCAR and KPOINTS files in each
            folder. If ``make_input_files`` is ``True`` but ``make_files`` or
            ``save_slabs`` is ``False``, files will be saved to folders
            regardless. This only works with VASP input files,
            other formats are not yet supported. Defaults to ``False``.
        config_dict (`dict` or `str`): Specifies the dictionary used for the
            generation of the input files.
        fmt (`str`, optional): The format of the output files. Options include
            'cif', 'poscar', 'cssr', 'json', not case sensitive.
            Defaults to 'poscar'.
        name (`str`, optional): The name of the surface slab structure file
            created. Case sensitive. Defaults to 'POSCAR'

    Returns:
        None, saves surface slabs to file
    """
    bulk_name = structure.composition.reduced_formula

    if make_fols or make_input_files:
        for slab in list_of_slabs:
            os.makedirs(os.path.join(
                os.getcwd(), r'{}/{}/{}_{}_{}'.format(bulk_name, slab['hkl'],
                                                      slab['slab_thickness'],
                                                      slab['vac_thickness'],
                                                      slab['slab_index'])),
                        exist_ok=True)

            # Makes all input files (KPOINTS, POTCAR, INCAR) based on the config
            # dictionary
            if make_input_files:
                # soft check if potcar directory is set
                potcars = _check_psp_dir()
                if potcars:
                    cd = _load_config_dict(config_dict)
                    vis = DictSet(slab['slab'], cd, **save_slabs_kwargs)
                    vis.write_input(r'{}/{}/{}_{}_{}'.format(
                        bulk_name, slab['hkl'], slab['slab_thickness'],
                        slab['vac_thickness'], slab['slab_index']))
                # only make the folders with structure files in them
                else:
                    slab['slab'].to(fmt=fmt,
                                    filename=r'{}/{}/{}_{}_{}/{}'.format(
                                        bulk_name, slab['hkl'],
                                        slab['slab_thickness'],
                                        slab['vac_thickness'],
                                        slab['slab_index'], name))
                    warnings.formatwarning = _custom_formatwarning
                    warnings.warn(
                        'POTCAR directory not set up in pymatgen, only '
                        'POSCARs were generated ')

            # Just makes the folders with structure files in them
            else:
                slab['slab'].to(fmt=fmt,
                                filename=r'{}/{}/{}_{}_{}/{}'.format(
                                    bulk_name, slab['hkl'],
                                    slab['slab_thickness'],
                                    slab['vac_thickness'], slab['slab_index'],
                                    name))

    # Makes name_hkl_slab_vac_index files in the bulk_name folder
    else:
        suffix = 'vasp'
        if fmt.lower() != 'poscar':
            suffix = fmt.lower()
        os.makedirs(os.path.join(os.getcwd(), r'{}'.format(bulk_name)),
                    exist_ok=True)
        for slab in list_of_slabs:
            slab['slab'].to(fmt=fmt,
                            filename=r'{}/{}_{}_{}_{}_{}.{}'.format(
                                bulk_name, name, slab['hkl'],
                                slab['slab_thickness'], slab['vac_thickness'],
                                slab['slab_index'], suffix))
Esempio n. 10
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def get_all_slabs(structure=None,
                  max_index=None,
                  thicknesses=None,
                  vacuums=None,
                  make_fols=False,
                  make_input_files=False,
                  max_size=500,
                  ox_states=None,
                  is_symmetric=True,
                  lll_reduce=True,
                  center_slab=True,
                  config_dict=PBEsol_slab_config,
                  potcar_functional='PBE',
                  update_incar=None,
                  update_potcar=None,
                  update_kpoints=None,
                  **kwargs):
    """
    Generates all unique slabs with specified maximum Miller index, minimum slab
    and vacuum thicknesses. It includes all combinations for multiple zero
    dipole symmetric terminations for the same Miller index. Note that using
    this method of slab generation will results in different slab index numbers
    as in the `get_one_hkl_slabs` - the slabs identified are the same, the index
    varies based on the position in the list of generated slabs.

    Args:
        structure: filename of structure file, takes all pymatgen-supported formats.
        max_index (int): maximum Miller index to be considered
        thicknesses (list): minimum size of the slab in angstroms.
        vacuums (list): minimum size of the vacuum in angstroms.
        make_fols (bool): makes folders containing POSCARs; default=False
        make_input_files (bool): makes INCAR, POTCAR and KPOINTS files in each
        of the folders; if True but make_fols is False it will make the folders 
        regardless; default=False.
        max_size (int): the maximum number of atoms in the slab for the size
        warning; default=500.
        ox_states (list or dict): add oxidation states either by sites
        i.e. [3, 2, 2, 1, -2, -2, -2, -2] or by element i.e. {'Fe': 3, 'O':-2};
        default=None which adds oxidation states by guess
        is_symmetric (bool): whether or not the slabs cleaved should have 
        inversion symmetry. Needs to be False for slabs cleaved from a
        non-centrosymmetric bulk; default=True
        lll_reduce (bool): whether or not the slabs will be orthogonalized;
        default=True.
        center_slab (bool): position of the slab in the unit cell, if True the
        slab is centered with equal amounts of vacuum above and below;
        default=True
        config_dict (dict): specifies the dictionary used for generation of
        input files; default=PBEsol_slab_config
        potcar_functional (str): The functional used for POTCAR generation;
        default='PBE'
        update_incar (dict): overrides default INCAR settings; default=None
        update_kpoints (dict or kpoints object): overrides default kpoints
        settings, if supplied as dict should be as {'reciprocal_density': 100};
        default=None
        update_potcar (dict): overrides default POTCAR settings; default=None

    Returns:
        POSCAR_hkl_slab_vac_index.vasp or hkl/slab_vac_index folders with
        POSCARs or hkl/slab_vac_index with all input files

    """
    # Check all neccessary input parameters are present
    if not any([structure, max_index, thicknesses, vacuums]):
        raise ValueError('One or more of the required arguments (structure, '
                         'max_index, thicknesses, vacuums) were not supplied.')

    # Import bulk relaxed structure, add oxidation states for slab dipole
    # calculations
    struc = Structure.from_file(structure)
    bulk_name = struc.formula.replace(" ", "")
    struc = oxidation_states(struc, ox_states=ox_states)

    # Iterate through vacuums and thicknessses
    provisional = []
    for vacuum in vacuums:
        for thickness in thicknesses:
            all_slabs = generate_all_slabs(struc,
                                           max_index=max_index,
                                           min_slab_size=thickness,
                                           min_vacuum_size=vacuum,
                                           lll_reduce=lll_reduce,
                                           center_slab=center_slab,
                                           **kwargs)

            for i, slab in enumerate(all_slabs):
                # Get all the zero-dipole slabs with inversion symmetry
                if is_symmetric:
                    if (slab.is_polar() == False) and (slab.is_symmetric()
                                                       == True):
                        provisional.append({
                            'hkl':
                            ''.join(map(str, slab.miller_index)),
                            'slab_t':
                            thickness,
                            'vac_t':
                            vacuum,
                            's_index':
                            i,
                            'slab':
                            slab
                        })

                # Get all the zero-dipole slabs wihtout inversion symmetry
                else:
                    if not slab.is_polar():
                        provisional.append({
                            'hkl':
                            ''.join(map(str, slab.miller_index)),
                            'slab_t':
                            thickness,
                            'vac_t':
                            vacuum,
                            's_index':
                            i,
                            'slab':
                            slab
                        })

    # Iterate though provisional slabs to extract the unique slabs
    unique_list, unique_list_of_dicts, repeat, large = ([] for i in range(4))

    for slab in provisional:
        if slab['slab'] not in unique_list:
            unique_list.append(slab['slab'])
            unique_list_of_dicts.append(slab)
            # For large slab size warning
            atoms = len(slab['slab'].atomic_numbers)
            if atoms > max_size:
                large.append('{}_{}_{}_{}'.format(slab['hkl'], slab['slab_t'],
                                                  slab['vac_t'],
                                                  slab['s_index']))

        # For repeat slabs warning
        else:
            repeat.append('{}_{}_{}_{}'.format(slab['hkl'], slab['slab_t'],
                                               slab['vac_t'], slab['s_index']))

    # Warnings for large and repeated slabs
        if repeat:
            warnings.formatwarning = custom_formatwarning
            warnings.warn(
                'Not all combinations of hkl or slab/vac thicknesses '
                'were generated because of repeat structures. '
                'The repeat slabs are: ' + ', '.join(map(str, repeat)))

        if large:
            warnings.formatwarning = custom_formatwarning
            warnings.warn('Some generated slabs exceed the max size specified.'
                          ' Slabs that exceed the max size are: ' +
                          ', '.join(map(str, large)))

    # Makes folders hkl/slab_vac_index, if only make_input_files is true the
    # folders will also be made automatically.
    if make_fols or make_input_files:
        for slab in unique_list_of_dicts:
            os.makedirs(os.path.join(
                os.getcwd(),
                r'{}/{}_{}_{}'.format(slab['hkl'], slab['slab_t'],
                                      slab['vac_t'], slab['s_index'])),
                        exist_ok=True)

            # Makes all VASP input files (KPOINTS, POTCAR, INCAR) based on the
            # config dictionary
            if make_input_files:
                vis = DictSet(structure=slab['slab'],
                              config_dict=config_dict,
                              potcar_functional=potcar_functional,
                              user_incar_settings=update_incar,
                              user_potcar_settings=update_potcar,
                              user_kpoints_settings=update_kpoints,
                              **kwargs)
                vis.write_input(
                    os.path.join(
                        os.getcwd(),
                        r'{}/{}_{}_{}'.format(slab['hkl'], slab['slab_t'],
                                              slab['vac_t'], slab['s_index'])))

            # Makes the folders with POSCARs
            else:
                slab['slab'].to(fmt='poscar',
                                filename=r'{}/{}_{}_{}/POSCAR'.format(
                                    slab['hkl'], slab['slab_t'], slab['vac_t'],
                                    slab['s_index']))

    # Omits folders, makes POSCAR_hkl_slab_vac_index files in folder bulk_name
    else:
        os.makedirs(os.path.join(os.getcwd(), r'{}'.format(bulk_name)),
                    exist_ok=True)
        for slab in unique_list_of_dicts:
            slab['slab'].to(fmt='poscar',
                            filename='{}/POSCAR_{}_{}_{}_{}.vasp'.format(
                                bulk_name, slab['hkl'], slab['slab_t'],
                                slab['vac_t'], slab['s_index']))
Esempio n. 11
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 def gen_pbc_sp(self, wdir, nelect):
     config = load_yaml_config('lateng_hse_d3bj_sp')
     config['INCAR']['NELECT'] = nelect
     vasp_set = DictSet(self.structure, config)
     vasp_set.write_input(wdir)
Esempio n. 12
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def vasp_converge_files(structure,
                        input_dir=None,
                        incar_settings=None,
                        config=None):
    """
    Generates input files for single-shot GGA convergence test calculations.
    Automatically sets ISMEAR (in INCAR) to 2 (if metallic) or 0 if not.
    Recommended to use with vaspup2.0
    Args:
        structure (Structure object):
            Structure to create input files for
        input_dir (str):
            Folder in which to create 'input' folder with VASP input files
            (default: None)
        incar_settings (dict):
            Dictionary of user INCAR settings (AEXX, NCORE etc.) to override default settings.
            Highly recommended to look at output INCARs or DefectsWithTheBoys.vasp_input
            source code, to see what the default INCAR settings are.
            (default: None)
        config (str):
            CONFIG file string. If provided, will also write the CONFIG file to each 'input' directory
            (default: None)
    """

    # Variable parameters first
    vaspconvergeincardict = {
        '# May need to change ISMEAR, NCORE, KPAR, AEXX, ENCUT, NUPDOWN, ISPIN':
        'variable parameters',
        'NUPDOWN':
        "0 # But could be 1 etc. if ya think we got a bit of magnetic shit going down",
        'NCORE': 12,
        '#KPAR': 1,
        'ENCUT': 450,
        'ISMEAR': "0 # Change to 2 for Metals",
        'ISPIN': 2,
        'ICORELEVEL': 0,
        'GGA': 'PS',
        'ALGO': 'Normal',
        'ADDGRID': True,
        'EDIFF': 1e-07,
        'EDIFFG': -0.01,
        'IBRION': -1,
        'ICHARG': 1,
        'ISIF': 3,
        'LASPH': True,
        'LORBIT': 11,
        'LREAL': False,
        'LVHAR': True,
        'LWAVE': True,
        'NEDOS': 2000,
        'NELM': 100,
        'NSW': 0,
        'PREC': 'Accurate',
        'SIGMA': 0.2
    }
    if all(is_metal(element) for element in structure.composition.elements):
        vaspconvergeincardict['ISMEAR'] = 2  # If metals only
    else:
        vaspconvergeincardict['ISMEAR'] = 0  # Gaussian smearing otherwise
    if incar_settings:
        vaspconvergeincardict.update(incar_settings)

    # Directory
    vaspconvergeinputdir = input_dir + "/input/" if input_dir else 'VASP_Files/input/'
    if not os.path.exists(vaspconvergeinputdir):
        os.makedirs(vaspconvergeinputdir)

    vasppotcardict = {
        'POTCAR': {
            'Ac': 'Ac',
            'Ag': 'Ag',
            'Al': 'Al',
            'Ar': 'Ar',
            'As': 'As',
            'Au': 'Au',
            'B': 'B',
            'Ba': 'Ba_sv',
            'Be': 'Be_sv',
            'Bi': 'Bi',
            'Br': 'Br',
            'C': 'C',
            'Ca': 'Ca_sv',
            'Cd': 'Cd',
            'Ce': 'Ce',
            'Cl': 'Cl',
            'Co': 'Co',
            'Cr': 'Cr_pv',
            'Cs': 'Cs_sv',
            'Cu': 'Cu_pv',
            'Dy': 'Dy_3',
            'Er': 'Er_3',
            'Eu': 'Eu',
            'F': 'F',
            'Fe': 'Fe_pv',
            'Ga': 'Ga_d',
            'Gd': 'Gd',
            'Ge': 'Ge_d',
            'H': 'H',
            'He': 'He',
            'Hf': 'Hf_pv',
            'Hg': 'Hg',
            'Ho': 'Ho_3',
            'I': 'I',
            'In': 'In_d',
            'Ir': 'Ir',
            'K': 'K_sv',
            'Kr': 'Kr',
            'La': 'La',
            'Li': 'Li_sv',
            'Lu': 'Lu_3',
            'Mg': 'Mg_pv',
            'Mn': 'Mn_pv',
            'Mo': 'Mo_pv',
            'N': 'N',
            'Na': 'Na_pv',
            'Nb': 'Nb_pv',
            'Nd': 'Nd_3',
            'Ne': 'Ne',
            'Ni': 'Ni_pv',
            'Np': 'Np',
            'O': 'O',
            'Os': 'Os_pv',
            'P': 'P',
            'Pa': 'Pa',
            'Pb': 'Pb_d',
            'Pd': 'Pd',
            'Pm': 'Pm_3',
            'Pr': 'Pr_3',
            'Pt': 'Pt',
            'Pu': 'Pu',
            'Rb': 'Rb_sv',
            'Re': 'Re_pv',
            'Rh': 'Rh_pv',
            'Ru': 'Ru_pv',
            'S': 'S',
            'Sb': 'Sb',
            'Sc': 'Sc_sv',
            'Se': 'Se',
            'Si': 'Si',
            'Sm': 'Sm_3',
            'Sn': 'Sn_d',
            'Sr': 'Sr_sv',
            'Ta': 'Ta_pv',
            'Tb': 'Tb_3',
            'Tc': 'Tc_pv',
            'Te': 'Te',
            'Th': 'Th',
            'Ti': 'Ti_pv',
            'Tl': 'Tl_d',
            'Tm': 'Tm_3',
            'U': 'U',
            'V': 'V_pv',
            'W': 'W_pv',
            'Xe': 'Xe',
            'Y': 'Y_sv',
            'Yb': 'Yb_2',
            'Zn': 'Zn',
            'Zr': 'Zr_sv'
        }
    }
    vaspconvergekpts = Kpoints().from_dict({
        'comment': 'Kpoints from vasp_gam_files',
        'generation_style': 'Gamma'
    })
    vaspconvergeincar = Incar.from_dict(vaspconvergeincardict)
    vaspconvergeinput = DictSet(structure, config_dict=vasppotcardict)

    vaspconvergeinput.potcar.write_file(vaspconvergeinputdir + 'POTCAR')
    vaspconvergeposcar = Poscar(structure)
    vaspconvergeposcar.write_file(vaspconvergeinputdir + 'POSCAR')
    with zopen(vaspconvergeinputdir + 'INCAR', "wt") as f:
        f.write(vaspconvergeincar.get_string())
    vaspconvergekpts.write_file(vaspconvergeinputdir + 'KPOINTS')
    # generate CONFIG file
    if config:
        with open(vaspconvergeinputdir + 'CONFIG', 'w+') as config_file:
            config_file.write(config)
        with open(vaspconvergeinputdir + 'CONFIG', 'a') as config_file:
            config_file.write(f"""\nname="{input_dir[13:]}" # input_dir""")
Esempio n. 13
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def vasp_gam_files(single_defect_dict, input_dir=None, incar_settings=None):
    """
    Generates input files for VASP Gamma-point-only rough relaxation (before more expensive vasp_std relaxation)
    Args:
        single_defect_dict (dict):
            Single defect-dictionary from prepare_vasp_defect_inputs()
            output dictionary of defect calculations (see example notebook)
        input_dir (str):
            Folder in which to create vasp_gam calculation inputs folder
            (Recommended to set as the key of the prepare_vasp_defect_inputs()
            output directory)
            (default: None)
        incar_settings (dict):
            Dictionary of user INCAR settings (AEXX, NCORE etc.) to override default settings.
            Highly recommended to look at output INCARs or DefectsWithTheBoys.vasp_input
            source code, to see what the default INCAR settings are.
            (default: None)
    """
    supercell = single_defect_dict['Defect Structure']
    NELECT = single_defect_dict['NELECT']
    POSCAR_Comment = single_defect_dict[
        'POSCAR Comment'] if single_defect_dict['POSCAR Comment'] else None

    # Variable parameters first
    vaspgamincardict = {
        '# May need to change NELECT, IBRION, NCORE, KPAR, AEXX, ENCUT, NUPDOWN, ISPIN, POTIM':
        'variable parameters',
        'NELECT':
        NELECT,
        'IBRION':
        '2 # vasp_gam cheap enough, this is more reliable',
        'NUPDOWN':
        f"{NELECT % 2:.0f} # But could be {NELECT % 2 + 2:.0f} if ya think we got a bit of crazy ferromagnetic shit going down",
        'NCORE':
        12,
        '#KPAR':
        'One pal, only one k-point yeh',
        'AEXX':
        0.25,
        'ENCUT':
        450,
        'POTIM':
        0.2,
        'ISPIN':
        2,
        'ICORELEVEL':
        0,
        'LSUBROT':
        True,
        'ALGO':
        'All',
        'ADDGRID':
        True,
        'EDIFF':
        1e-06,
        'EDIFFG':
        -0.005,
        'HFSCREEN':
        0.2,
        'ICHARG':
        1,
        'ISIF':
        2,
        'ISYM':
        0,
        'ISMEAR':
        0,
        'LASPH':
        True,
        'LHFCALC':
        True,
        'LORBIT':
        11,
        'LREAL':
        False,
        'LVHAR':
        True,
        'LWAVE':
        True,
        'NEDOS':
        2000,
        'NELM':
        100,
        'NSW':
        300,
        'PREC':
        'Accurate',
        'PRECFOCK':
        'Fast',
        'SIGMA':
        0.05
    }
    if incar_settings:
        vaspgamincardict.update(incar_settings)

    # Directory
    vaspgaminputdir = input_dir + "/vasp_gam/" if input_dir else 'VASP_Files/vasp_gam/'
    if not os.path.exists(vaspgaminputdir):
        os.makedirs(vaspgaminputdir)

    vasppotcardict = {
        'POTCAR': {
            'Ac': 'Ac',
            'Ag': 'Ag',
            'Al': 'Al',
            'Ar': 'Ar',
            'As': 'As',
            'Au': 'Au',
            'B': 'B',
            'Ba': 'Ba_sv',
            'Be': 'Be_sv',
            'Bi': 'Bi',
            'Br': 'Br',
            'C': 'C',
            'Ca': 'Ca_sv',
            'Cd': 'Cd',
            'Ce': 'Ce',
            'Cl': 'Cl',
            'Co': 'Co',
            'Cr': 'Cr_pv',
            'Cs': 'Cs_sv',
            'Cu': 'Cu_pv',
            'Dy': 'Dy_3',
            'Er': 'Er_3',
            'Eu': 'Eu',
            'F': 'F',
            'Fe': 'Fe_pv',
            'Ga': 'Ga_d',
            'Gd': 'Gd',
            'Ge': 'Ge_d',
            'H': 'H',
            'He': 'He',
            'Hf': 'Hf_pv',
            'Hg': 'Hg',
            'Ho': 'Ho_3',
            'I': 'I',
            'In': 'In_d',
            'Ir': 'Ir',
            'K': 'K_sv',
            'Kr': 'Kr',
            'La': 'La',
            'Li': 'Li_sv',
            'Lu': 'Lu_3',
            'Mg': 'Mg_pv',
            'Mn': 'Mn_pv',
            'Mo': 'Mo_pv',
            'N': 'N',
            'Na': 'Na_pv',
            'Nb': 'Nb_pv',
            'Nd': 'Nd_3',
            'Ne': 'Ne',
            'Ni': 'Ni_pv',
            'Np': 'Np',
            'O': 'O',
            'Os': 'Os_pv',
            'P': 'P',
            'Pa': 'Pa',
            'Pb': 'Pb_d',
            'Pd': 'Pd',
            'Pm': 'Pm_3',
            'Pr': 'Pr_3',
            'Pt': 'Pt',
            'Pu': 'Pu',
            'Rb': 'Rb_sv',
            'Re': 'Re_pv',
            'Rh': 'Rh_pv',
            'Ru': 'Ru_pv',
            'S': 'S',
            'Sb': 'Sb',
            'Sc': 'Sc_sv',
            'Se': 'Se',
            'Si': 'Si',
            'Sm': 'Sm_3',
            'Sn': 'Sn_d',
            'Sr': 'Sr_sv',
            'Ta': 'Ta_pv',
            'Tb': 'Tb_3',
            'Tc': 'Tc_pv',
            'Te': 'Te',
            'Th': 'Th',
            'Ti': 'Ti_pv',
            'Tl': 'Tl_d',
            'Tm': 'Tm_3',
            'U': 'U',
            'V': 'V_pv',
            'W': 'W_pv',
            'Xe': 'Xe',
            'Y': 'Y_sv',
            'Yb': 'Yb_2',
            'Zn': 'Zn',
            'Zr': 'Zr_sv'
        }
    }
    vaspgamkpts = Kpoints().from_dict({
        'comment': 'Kpoints from DefectsWithTheBoys.vasp_gam_files',
        'generation_style': 'Gamma'
    })
    vaspgamincar = Incar.from_dict(vaspgamincardict)
    vaspgaminput = DictSet(supercell, config_dict=vasppotcardict)
    vaspgamposcar = vaspgaminput.poscar
    vaspgaminput.potcar.write_file(vaspgaminputdir + 'POTCAR')
    if POSCAR_Comment:
        vaspgamposcar.comment = POSCAR_Comment
    vaspgamposcar.write_file(vaspgaminputdir + 'POSCAR')
    with zopen(vaspgaminputdir + 'INCAR', "wt") as f:
        f.write(vaspgamincar.get_string())
    vaspgamkpts.write_file(vaspgaminputdir + 'KPOINTS')