All electron DFT with Fleur - a Hands-on Tutorial

Course/Event Essentials

Event/Course Start
Event/Course End
Event/Course Format
Online
Live (synchronous)

Venue Information

Country: Italy
Venue Details: Click here

Training Content and Scope

Technical Domain
Level of Instruction
Beginner
Intermediate
Sector of the Target Audience
Research and Academia
Industry
HPC Profile of Target Audience
Application Users
Language of Instruction

Other Information

Organiser
Supporting Project(s)
MaX
Event/Course Description

The density-functional theory (DFT) in its various incarnation provides the most practical framework to compute basic electronic, magnetic, and structural properties of materials. Large scale materials screening using DFT is believed to be a key factor in future materials development. The full-potential linearized augmented planewave (FLAPW) method has emerged as a robust and precise state-of-the-art technique with reasonable computational efficiency. It is widely accepted as providing the reference solution. However, the use and application of DFT methods and of FLAPW in particular require a thorough training where users meet developers of such methods.

Hence this tutorial focuses on training the participants in using our all-electron FLAPW DFT code FLEUR. A special focus will be on the usage of FLEUR within the AiiDA infrastructure to build automatic work-flows applicable to materials screening applications.

The tutorial covers theoretical lectures to provide the necessary methodological and physical background to professionally use the FLEUR code family and enable the participants to benefit from the strengths of the codes. Hands-on sessions are provided to get in touch with the codes from a practical perspective.

Our school will consist of lectures covering three main areas:

  • the underlying basic theory,
  • the installation and usage of FLEUR and its AiiDA interface,
  • more specialized topics relevant for typical FLEUR calculations.

 

Registration: here (deadline 21.03.2021)

Complete info here 

In collaboration with