mirror of
https://github.com/triqs/dft_tools
synced 2024-12-22 12:23:41 +01:00
[doc] minor changes
This commit is contained in:
parent
e0509ab741
commit
3b3353e986
@ -5,7 +5,7 @@
|
|||||||
The DFT+DMFT calculation
|
The DFT+DMFT calculation
|
||||||
========================
|
========================
|
||||||
|
|
||||||
After having set up the hdf5 arxive, we can now do our DFT+DMFT calculation. It consists of
|
After having set up the hdf5 archive, we can now do our DFT+DMFT calculation. It consists of
|
||||||
initialisation steps, and the actual DMFT self consistency loop.
|
initialisation steps, and the actual DMFT self consistency loop.
|
||||||
|
|
||||||
.. index:: initialisation of DFT+DMFT
|
.. index:: initialisation of DFT+DMFT
|
||||||
@ -22,12 +22,12 @@ to get the local quantities used in DMFT. It is initialized by::
|
|||||||
|
|
||||||
The only necessary parameter is the filename of the hdf5 archive. In addition, there are some optional parameters:
|
The only necessary parameter is the filename of the hdf5 archive. In addition, there are some optional parameters:
|
||||||
|
|
||||||
* `mu`: The chemical potential at initialization. This value is only used if no other value is found in the hdf5 arxive. The default value is 0.0.
|
* `mu`: The chemical potential at initialization. This value is only used if no other value is found in the hdf5 archive. The default value is 0.0.
|
||||||
* `h_field`: External magnetic field. The default value is 0.0.
|
* `h_field`: External magnetic field. The default value is 0.0.
|
||||||
* `use_dft_blocks`: If true, the structure of the density matrix is analysed at initialisation, and non-zero matrix elements
|
* `use_dft_blocks`: If true, the structure of the density matrix is analysed at initialisation, and non-zero matrix elements
|
||||||
are identified. The DMFT calculation is then restricted to these matrix elements, yielding a more efficient solution of the
|
are identified. The DMFT calculation is then restricted to these matrix elements, yielding a more efficient solution of the
|
||||||
local interaction problem. Degeneracies in orbital and spin space are also identified and stored for later use. The default value is `False`.
|
local interaction problem. Degeneracies in orbital and spin space are also identified and stored for later use. The default value is `False`.
|
||||||
* `dft_data`, `symmcorr_data`, `parproj_data`, `symmpar_data`, `bands_data`: These string variables define the subgroups in the hdf5 arxive,
|
* `dft_data`, `symmcorr_data`, `parproj_data`, `symmpar_data`, `bands_data`: These string variables define the subgroups in the hdf5 archive,
|
||||||
where the corresponding information is stored. The default values are consistent with those in :ref:`interfacetowien`.
|
where the corresponding information is stored. The default values are consistent with those in :ref:`interfacetowien`.
|
||||||
|
|
||||||
At initialisation, the necessary data is read from the hdf5 file. If a calculation is restarted based on a previous hdf5 file, information on
|
At initialisation, the necessary data is read from the hdf5 file. If a calculation is restarted based on a previous hdf5 file, information on
|
||||||
|
@ -21,7 +21,7 @@ html_theme = 'triqs'
|
|||||||
html_theme_path = ['@TRIQS_THEMES_PATH@']
|
html_theme_path = ['@TRIQS_THEMES_PATH@']
|
||||||
html_show_sphinx = False
|
html_show_sphinx = False
|
||||||
html_context = {'header_title': 'dft_tools',
|
html_context = {'header_title': 'dft_tools',
|
||||||
'header_subtitle': 'Connecting <a class="triqs" style="font-size: 12px" href="http://ipht.cea.fr/triqs">TRIQS</a> to the Wien2k package',
|
'header_subtitle': 'Connecting <a class="triqs" style="font-size: 12px" href="http://ipht.cea.fr/triqs">TRIQS</a> to DFT packages',
|
||||||
'header_links': [['Install', 'install'],
|
'header_links': [['Install', 'install'],
|
||||||
['Documentation', 'documentation'],
|
['Documentation', 'documentation'],
|
||||||
['Issues', 'issues'],
|
['Issues', 'issues'],
|
||||||
|
@ -4,13 +4,13 @@
|
|||||||
Installation
|
Installation
|
||||||
============
|
============
|
||||||
|
|
||||||
Prerequisite
|
Prerequisites
|
||||||
------------
|
-------------
|
||||||
|
|
||||||
#. The :ref:`TRIQS <triqslibs:welcome>` toolbox (see :ref:`TRIQS installation instruction <triqslibs:installation>`).
|
#. The :ref:`TRIQS <triqslibs:welcome>` toolbox (see :ref:`TRIQS installation instruction <triqslibs:installation>`).
|
||||||
In the following, we will suppose that it is installed in the ``path_to_triqs`` directory.
|
In the following, we will suppose that it is installed in the ``path_to_triqs`` directory.
|
||||||
|
|
||||||
#. Likely, you will also need at least one impurity solver, e.g. the :ref:`CTHYB_matrix solver <triqscthyb:welcome>`.
|
#. Likely, you will also need at least one impurity solver, e.g. the :ref:`CTHYB solver <triqscthyb:welcome>`.
|
||||||
|
|
||||||
Installation steps
|
Installation steps
|
||||||
------------------
|
------------------
|
||||||
@ -33,6 +33,9 @@ Installation steps
|
|||||||
$ make test
|
$ make test
|
||||||
$ make install
|
$ make install
|
||||||
|
|
||||||
|
Installation steps for use with WIEN2K
|
||||||
|
---------------------------------------
|
||||||
|
|
||||||
#. You need to take this last step manually since the Wien2k installation is not standard on all machines.
|
#. You need to take this last step manually since the Wien2k installation is not standard on all machines.
|
||||||
After the above installation several files will be installed into::
|
After the above installation several files will be installed into::
|
||||||
|
|
||||||
@ -63,7 +66,7 @@ Installation steps
|
|||||||
|
|
||||||
You will also need to insert manually a correct call of :file:`pytriqs` into
|
You will also need to insert manually a correct call of :file:`pytriqs` into
|
||||||
these scripts using an appropriate for your system MPI wrapper (mpirun,
|
these scripts using an appropriate for your system MPI wrapper (mpirun,
|
||||||
mpprun...), if needed. Search for *pytriqs* within the scripts to locate the
|
mpprun, etc.), if needed. Search for *pytriqs* within the scripts to locate the
|
||||||
appropriate place for inserting the :file:`pytriqs` call.
|
appropriate place for inserting the :file:`pytriqs` call.
|
||||||
|
|
||||||
Finally, you will have to change the calls to :program:`python_with_DMFT` to
|
Finally, you will have to change the calls to :program:`python_with_DMFT` to
|
||||||
|
@ -8,7 +8,7 @@ to take the output of the program that constructs the projected local
|
|||||||
orbitals (:program:`dmftproj`, for documentation see :download:`TutorialDmftproj.pdf <TutorialDmftproj.pdf>`), and to store all the necessary information into
|
orbitals (:program:`dmftproj`, for documentation see :download:`TutorialDmftproj.pdf <TutorialDmftproj.pdf>`), and to store all the necessary information into
|
||||||
an hdf5 file. This latter file is then used to do the DMFT calculation. The
|
an hdf5 file. This latter file is then used to do the DMFT calculation. The
|
||||||
reason for this structure is that this enables the user to have everything
|
reason for this structure is that this enables the user to have everything
|
||||||
that is necessary to reproduce the calculation in one single hdf5 arxive.
|
that is necessary to reproduce the calculation in one single hdf5 archive.
|
||||||
|
|
||||||
.. index:: Interface to Wien2k
|
.. index:: Interface to Wien2k
|
||||||
|
|
||||||
@ -17,7 +17,7 @@ that is necessary to reproduce the calculation in one single hdf5 arxive.
|
|||||||
The interface to Wien2k
|
The interface to Wien2k
|
||||||
-----------------------
|
-----------------------
|
||||||
|
|
||||||
As explained above, this interface produces an hdf5 arxive out of the files that
|
As explained above, this interface produces an hdf5 archive out of the files that
|
||||||
were written by the band structure package :program:`Wien2k/dmftproj`.
|
were written by the band structure package :program:`Wien2k/dmftproj`.
|
||||||
For this purpose we
|
For this purpose we
|
||||||
use the python module :class:`Wien2kConverter`. It is initialised as::
|
use the python module :class:`Wien2kConverter`. It is initialised as::
|
||||||
@ -29,11 +29,11 @@ The only necessary parameter to this construction is the parameter `filename`.
|
|||||||
It has to be the root of the files produces by dmftproj. For example, if you did a
|
It has to be the root of the files produces by dmftproj. For example, if you did a
|
||||||
calculation for TiO, the :program:`Wien2k` naming convention is that all files are called
|
calculation for TiO, the :program:`Wien2k` naming convention is that all files are called
|
||||||
:file:`TiO.*`, so you would give `filename = "TiO"`. The constructor opens
|
:file:`TiO.*`, so you would give `filename = "TiO"`. The constructor opens
|
||||||
an hdf5 arxive, named :file:`material_of_interest.h5`, where all the data is stored.
|
an hdf5 archive, named :file:`material_of_interest.h5`, where all the data is stored.
|
||||||
|
|
||||||
There are three optional parameters to the Constructor:
|
There are three optional parameters to the Constructor:
|
||||||
|
|
||||||
* `dft_subgrp`: We store all data in subgroups of the hdf5 arxive. For the main data
|
* `dft_subgrp`: We store all data in subgroups of the hdf5 archive. For the main data
|
||||||
that is needed for the DMFT loop, we use the subgroup specified by this optional parameter.
|
that is needed for the DMFT loop, we use the subgroup specified by this optional parameter.
|
||||||
The default value `dft_input` is used as the subgroup name.
|
The default value `dft_input` is used as the subgroup name.
|
||||||
* `symmcorr_subgrp`: In this subgroup we store all the data for applying the symmetry
|
* `symmcorr_subgrp`: In this subgroup we store all the data for applying the symmetry
|
||||||
@ -44,7 +44,7 @@ There are three optional parameters to the Constructor:
|
|||||||
that :program:`h5repack` is in your path variable!
|
that :program:`h5repack` is in your path variable!
|
||||||
|
|
||||||
After initialising the interface module, we can now convert the input text files into the
|
After initialising the interface module, we can now convert the input text files into the
|
||||||
hdf5 arxive by::
|
hdf5 archive by::
|
||||||
|
|
||||||
Converter.convert_dft_input()
|
Converter.convert_dft_input()
|
||||||
|
|
||||||
@ -52,8 +52,8 @@ This reads all the data, and stores it in the subgroup `dft_subgrp`, as discusse
|
|||||||
In this step, the files :file:`material_of_interest.ctqmcout` and :file:`material_of_interest.symqmc`
|
In this step, the files :file:`material_of_interest.ctqmcout` and :file:`material_of_interest.symqmc`
|
||||||
have to be present in the working directory.
|
have to be present in the working directory.
|
||||||
|
|
||||||
After this step, all the necessary information for the DMFT loop is stored in the hdf5 arxive, where
|
After this step, all the necessary information for the DMFT loop is stored in the hdf5 archive, where
|
||||||
the string variable `Converter.hdf_file` gives the file name of the arxive.
|
the string variable `Converter.hdf_file` gives the file name of the archive.
|
||||||
You can now proceed with :ref:`DFTDMFTmain`.
|
You can now proceed with :ref:`DFTDMFTmain`.
|
||||||
|
|
||||||
|
|
||||||
@ -79,7 +79,9 @@ spectral function. It is done by::
|
|||||||
Converter.convert_bands_input()
|
Converter.convert_bands_input()
|
||||||
|
|
||||||
The optional parameter that controls where the data is stored is `bands_subgrp`,
|
The optional parameter that controls where the data is stored is `bands_subgrp`,
|
||||||
with the default value `dft_bands_input`.
|
with the default value `dft_bands_input`. Note however that you need to run "dmftproj -band" to produce the
|
||||||
|
necessary outband file. The casename.indmftpr file needs an additional line with E_fermi
|
||||||
|
(obtainable from casename.qtl).
|
||||||
|
|
||||||
After having converted this input, you can further proceed with the :ref:`analysis`.
|
After having converted this input, you can further proceed with the :ref:`analysis`.
|
||||||
|
|
||||||
@ -95,5 +97,5 @@ Interfaces to other packages
|
|||||||
|
|
||||||
Because of the modular structure, it is straight forward to extend the TRIQS package
|
Because of the modular structure, it is straight forward to extend the TRIQS package
|
||||||
in order to work with other band-structure codes. The only necessary requirement is that
|
in order to work with other band-structure codes. The only necessary requirement is that
|
||||||
the interface module produces an hdf5 arxive, that stores all the data in the specified
|
the interface module produces an hdf5 archive, that stores all the data in the specified
|
||||||
form. For the details of what data is stored in detail, see the reference manual.
|
form. For the details of what data is stored in detail, see the reference manual.
|
||||||
|
Loading…
Reference in New Issue
Block a user