LabQSM: Difference between revisions
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=== Training material === | === Training material === | ||
In order to download the training material needed for this class, clone the [https://github.com/max-centre/LabCQM LabQSM] repository from [https://github.com/ GitHub], by issuing the command: | In order to download the training material needed for this class, clone the [https://github.com/max-centre/LabCQM LabQSM] repository from [https://github.com/ GitHub], by issuing the command: | ||
> git clone https://github.com/max-centre/LabCQM.git | > git clone https://github.com/max-centre/LabCQM.git | ||
No passed request is be prompted, and a folder called LabQSM is created locally. Inspect the contact of the folder by typing: | No passed request is be prompted, and a folder called LabQSM is created locally. Inspect the contact of the folder by typing: | ||
> ls LabQSM/ | > ls LabQSM/ | ||
> LAB_1 LICENSE README.md docs tools | > LAB_1 LICENSE README.md docs tools | ||
On every new lecture, or when mentioned by the tutors, update the repository by typing: | On every new lecture, or when mentioned by the tutors, update the repository by typing: | ||
> cd LabQSM | > cd LabQSM | ||
> git pull | > git pull | ||
You are now all set and ready to start the hands-on part. | You are now all set and ready to start the hands-on part. | ||
== Link to Selected Laboratories == | == Link to Selected Laboratories == |
Revision as of 07:22, 20 November 2020
This is the homepage for the hands-on tutorial Laboratory of Quantum Simulation of Materials (LabQSM), 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 or VESTA(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:
- Opt1: Using the Quantum Mobile virtual machine (VM);
- Opt2: Connecting to existing machines, compliant with the class, as provided by the tutors
- Opt3: Installing your own machine
Opt1: Using Quantum Mobile
Quantum mobile is a ready-to-go VM, thought to provide all MaX flagship codes (incl QE) together with AiiDA seamlessly integrated in a plug-and-play linux (Ubuntu) environment. Quantum Mobile is available on the MaterialsCloud portal.
Step by step installation:
- Download the latest version of Quantum Mobile, following the link here: https://github.com/marvel-nccr/quantum-mobile/wiki. By doing this you'll obtain a VM image.
- If not available, install VirtualBox to run the Quantum Mobile VM.
- Double click on the Quantum Mobile to start the VM.
- At this point, you should see a virtualised Ubuntu OS. By opening a terminal you'll see that pw.x (and the other required executables) are available. Among others, all executables from the QE distribution, XcrySDen, Grace, gnuplot, and python are all pre-installed.
- The unix accounting within the VM is as follows:
user: max passwd: moritz
- Further information about Quantum Mobile installation can be found here: https://github.com/marvel-nccr/quantum-mobile/releases/.
Opt2: Connecting to existing machines
Opt3: Installing the needed software in your own machine
If you want to use your desktop or laptop, be sure you have the following software installed:
- Quantum ESPRESSO package
- Structure visualization software (XcrySDen or VESTA)
- A molecular editor (e.g. Avogadro)
- General purpose scientific plotting tools. At least one of the following SW should be available: (XM)Grace, Gnuplot, or python with matplotlib support.
Training material
In order to download the training material needed for this class, clone the LabQSM repository from GitHub, by issuing the command:
> git clone https://github.com/max-centre/LabCQM.git
No passed request is be prompted, and a folder called LabQSM is created locally. Inspect the contact of the folder by typing:
> ls LabQSM/ > LAB_1 LICENSE README.md docs tools
On every new lecture, or when mentioned by the tutors, update the repository by typing:
> cd LabQSM > git pull
You are now all set and ready to start the hands-on part.