2019-01-25 11:39:31 +01:00
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=================
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Quick-start guide
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=================
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This tutorial should teach you everything you need to get started with
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the the basics of the |qp|. As an example, we will run a frozen core
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2019-03-07 17:49:59 +01:00
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|CIPSI| calculation on the HCN molecule in the 6-31G basis set.
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2019-01-25 11:39:31 +01:00
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Demo video
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==========
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2019-02-22 19:19:58 +01:00
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This tutorial can be directly watched at:
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`<https://www.youtube.com/watch?v=4nmdCAPkZlc>`_
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2019-01-25 11:39:31 +01:00
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Hands on
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========
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.. important::
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2019-02-22 19:19:58 +01:00
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Before using the |qp|, it is required to load the environment variables
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relatives to the |QP| or to be in the |qpsh| mode.
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Please execute in the current shell:
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.. code:: bash
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${QP_ROOT}/bin/qpsh
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where :code:`${QP_ROOT}` is the path to the source files of the |QP| installed on your architecture.
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2019-03-07 17:49:59 +01:00
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The |QPSH| mode: a Bash-like experience for quantum chemistry
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2019-02-22 19:19:58 +01:00
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-------------------------------------------------------------
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The |QP| has been designed pretty much as an *interactive* environment for quantum-chemistry calculations,
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in order to facilitate the user experience.
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2019-03-07 17:49:59 +01:00
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Just like in Bash, there are many commands in the |QP| (see for instance :ref:`qp_edit` or :ref:`qp_run`)
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2019-02-22 19:19:58 +01:00
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which help in handling useful data or running executables (see for instance :ref:`scf` or :ref:`fci`).
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2019-03-07 17:49:59 +01:00
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All commands designed within the |qp| **begin** with `qp`, and there are two ways of running a **command**:
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2019-03-07 17:49:59 +01:00
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* running the *executable* associated with the command:
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.. code:: bash
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qp_command
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2019-03-07 17:49:59 +01:00
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or executing the *qp* shell command which calls the *executable* :code:`qp_command`:
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2019-02-22 19:19:58 +01:00
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.. code:: bash
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qp command
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Usually, when using the :command:`qp` command, the name of the |EZFIO| database is omitted.
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2019-03-07 17:49:59 +01:00
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The advantage of using :code:`qp command` is that you can, just like in Bash, have:
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2019-02-22 19:19:58 +01:00
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* the :kbd:`Tab` key for the auto-completion for basically any command of the |QP|
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* man pages with -h, --help or qp man
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Just try, for instance:
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.. code:: bash
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qp
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and then use the auto-completion. You will show appear all possible commands that you can run:
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.. code:: bash
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convert_output_to_ezfio -h plugins unset_file
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create_ezfio man set_file update
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Then, try, still with the auto-completion,
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.. code:: bash
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qp create
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You will see appear all the options for the :ref:`qp_create_ezfio` commands.
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2019-01-25 11:39:31 +01:00
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Create the EZFIO database
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-------------------------
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The data relative to calculations are stored in an |EZFIO| database.
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|EZFIO| is a hierarchical data format which uses the hierarchy of the
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file system to organize the data, as files stored in a directory. The
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data in the |EZFIO| directory are stored as plain text files, so it can
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be opened with any text editor.
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To access the data of the |EZFIO| database, the APIs (Fortran, |Python|,
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|OCaml| or Bash) provided by |EZFIO| should be used, or tools using
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these APIs such as :ref:`qp_edit` provided with the |qp|.
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First, create an `xyz` file containing the coordinates of the molecule.
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The file :file:`hcn.xyz` contains::
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3
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HCN molecule
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C 0.0 0.0 0.0
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H 0.0 0.0 1.064
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N 0.0 0.0 -1.156
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This xyz file is now used with the :ref:`qp_create_ezfio` command to
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create an |EZFIO| database with the 6-31G basis set:
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.. code:: bash
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2019-10-01 10:38:29 +02:00
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qp create_ezfio -b "6-31g" hcn.xyz -o hcn
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The EZFIO database now contains data relative to the nuclear coordinates
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and the atomic basis set:
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.. code:: bash
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$ ls hcn
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ao_basis becke_numerical_grid dft_keywords mo_one_e_ints perturbation
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ao_one_e_ints davidson dressing mo_two_e_erf_ints pseudo
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ao_two_e_erf_ints density_for_dft electrons mo_two_e_ints scf_utils
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ao_two_e_ints determinants ezfio nuclei work
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2021-01-25 10:21:25 +01:00
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If you need to run using an already existing EZFIO database, use
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.. code:: bash
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qp set_file hcn
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2019-01-25 11:39:31 +01:00
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Run a Hartree-Fock calculation
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------------------------------
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The program :ref:`qp_run` is the driver program of the |qp|. To run a
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|scf| calculation, just run
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.. code:: bash
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2019-02-22 19:19:58 +01:00
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qp run scf
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The expected energy is ``-92.827856698`` au.
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.. seealso::
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2019-01-29 15:40:00 +01:00
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The documentation of the :ref:`module_hartree_fock` module and that of the
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:ref:`scf` program.
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This creates the |MOs| in the |EZFIO| database that will be used to
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in any other post-SCF method. The |qp| does not handle symmetry and
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the |MOs| are stored by increasing order of Fock energies.
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2019-03-07 17:49:59 +01:00
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2019-01-25 11:39:31 +01:00
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Choose the target |MO| space
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----------------------------
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2019-03-07 17:49:59 +01:00
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Now, we will modify the |EZFIO| database to make a |CIPSI| calculation only in the
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full set of valence |MOs|, keeping the core |MOs| frozen. The simple
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command :ref:`qp_set_frozen_core` does this automatically:
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.. code:: bash
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2019-02-22 19:19:58 +01:00
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qp set_frozen_core
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The general command to specify core and active orbitals is :ref:`qp_set_mo_class`.
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In the case of HCN molecule in the 631G basis, one has 20 |MOs| in total and the two first orbitals are frozen:
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.. code::
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qp set_mo_class --core="[1-2]" --act="[3-20]"
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Run the |CIPSI| calculation
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----------------------------
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We will now use the |CIPSI| algorithm to estimate the |FCI| energy.
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.. code::
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qp run fci | tee hcn.fci.out
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The program will start with a single determinant and will iteratively:
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* Select the most important determinants from the external space and add them to the
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internal space
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* Add all the necessary determinants to allow the eigenvector of |H| to be
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also an eigenstate of |S^2|
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* Diagonalize |H| in the enlarged internal space
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* Compute (stochastically) the second-order perturbative contribution to the energy
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* Extrapolate the variational energy by fitting
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:math:`E=E_\text{FCI} - \alpha\, E_\text{PT2}`
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By default, the program will stop when more than one million determinants have
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entered in the internal space, or when the |PT2| energy is below :math:`10^{-4}` au.
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To have a pictural illustration of the convergence of the |CIPSI| algorithm, just run
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.. code::
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2019-02-22 19:19:58 +01:00
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qp_e_conv_fci
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This will create the files :file:`hcn.fci.out.conv` containing the data of the
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convergence of the energy that can be plotted, together with the file
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:file:`hcn.fci.out.conv.1.eps` which is obtained from the gnuplot plot file
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:file:`hcn.fci.out.conv.plt`.
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The estimated |FCI| energy of HCN is ``-93.0501`` au.
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.. seealso::
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2019-01-29 15:40:00 +01:00
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The documentation of the :ref:`module_fci` module and that of the :ref:`fci` program.
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