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In order to go through this tutorial you need to have access to a Unix/Linux machine, where you can run Unix terminals.  
In order to go through this tutorial you need to have access to a Unix/Linux machine, where you can run Unix terminals.  
Software-wise, one needs [http://www.quantum-espresso.org Quantum ESPRESSO] (QE) executables (here we consider v6.5, though any version newer that 6.0 would do). Applications like [http://www.xcrysden.org XcrySDen] (QE compatible structure visualization) and [https://avogadro.cc Avogadro] (molecular editor) are also used during the classes.
Software-wise, one needs the following:
* One '''quantum engine''', i.e. a software able to run quantum mechanical DFT simulations. Here we consider [http://www.quantum-espresso.org Quantum ESPRESSO] (QE). During this class we'll be using QE-v6.5, though any version newer that 6.0 would do.  
* Structure visualization and builders: applications like [http://www.xcrysden.org XcrySDen] (QE compatible structure visualization) and [https://avogadro.cc Avogadro] (molecular editor) will be used in the more advanced part of the class.
* General purpose scientific plotting tools. At least one of the following SW should be available: [https://plasma-gate.weizmann.ac.il/Grace/ (XM)Grace], [http://www.gnuplot.info Gnuplot], or python with [https://matplotlib.org matplotlib] support.


Several options are available:
Several options are available:

Revision as of 15:10, 19 November 2020

This is the homepage for the hands-on tutorial Laboratory of Computational Quantum Mechanics (LabCQM), a university (master-level) class on electronic structure methods, with a particular focus on density functional theory (DFT).

Starting from 2016/2017, this training material has been extensively used in Master degree in Physics of the University of Modena and Reggio Emilia (UniMoRe), fall term.


Getting Started

In order to go through this tutorial you need to have access to a Unix/Linux machine, where you can run Unix terminals. Software-wise, one needs the following:

  • One quantum engine, i.e. a software able to run quantum mechanical DFT simulations. Here we consider Quantum ESPRESSO (QE). During this class we'll be using QE-v6.5, though any version newer that 6.0 would do.
  • Structure visualization and builders: applications like XcrySDen (QE compatible structure visualization) and Avogadro (molecular editor) will be used in the more advanced part of the class.
  • General purpose scientific plotting tools. At least one of the following SW should be available: (XM)Grace, Gnuplot, or python with matplotlib support.

Several options are available:

  • (A) exploit the Quantum Mobile virtual machine (VM);
  • (B) connect to existing machines, compliant with the class, as provided by the tutors
  • (C) install your own machine