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JDFTx: software for joint density-functional theory.

Ravishankar Sundararaman1, Kendra Letchworth-Weaver2, Kathleen A Schwarz3

  • 1Department of Materials Science and Engineering, Rensselaer Polytechnic Institute, Troy, NY, 12180.

Softwarex
|June 13, 2018
PubMed
Summary
This summary is machine-generated.

JDFTx is an open-source electronic density-functional theory (DFT) software enabling new computational methods. It facilitates multi-scale modeling for materials science, chemistry, and physics, including solvated and electrochemical systems.

Keywords:
31.15.A-72.20.Ht73.20.Mf82.20.Yn82.45.JnDensity functional theoryElectrochemistryElectronic structureLight-matter interactionsSolvation

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Area of Science:

  • Computational Physics
  • Materials Science
  • Quantum Chemistry

Background:

  • Density-functional theory (DFT) is crucial for predicting atomic-scale properties.
  • Advancements are needed for novel materials, properties, and multi-scale modeling.

Purpose of the Study:

  • Introduce JDFTx, an open-source electronic DFT software.
  • Facilitate rapid development of new theories, models, and algorithms.
  • Enable joint density-functional theory (JDFT) for complex systems.

Main Methods:

  • Utilizes an algebraic formulation for abstraction and efficient C++11 implementation.
  • Optimized for diverse hardware, including Graphics Processing Units (GPUs).
  • Modular design allows for easy extension and interfacing with other computational tools.

Main Results:

  • JDFTx supports the development of JDFT, combining electronic DFT with classical DFT and continuum models.
  • Enables first-principles calculations for solvated and electrochemical systems.
  • Facilitates multi-scale toolkits, connecting ab initio calculations with phenomena like photo-excited carrier dynamics.

Conclusions:

  • JDFTx provides a flexible and high-performance platform for advancing computational materials science.
  • Its architecture supports the integration of diverse theoretical approaches for multi-scale simulations.
  • Accelerates research in areas from quantum chemistry to condensed matter physics.