Skip to content
@PRISBteam

MATERiA codes

The MATERiA team develops materials science applications using tools of algebraic topology and discrete mathematics

Popular repositories Loading

  1. Voronoi_PCC_Analyser Voronoi_PCC_Analyser Public

    Based on the NEPER software output, this Python package provides useful tools for a Polyhedral Cell Complex (PCC) analysis and visualisation

    Python 5 2

  2. PCC_Processing_Design PCC_Processing_Design Public

    The C++ code generates discrete structures and analyses their evolution process on the elements of a Polytopal Cell Complexes (PCCs) represented algebraically as a set of incidence and adjacency ma…

    C++ 2 1

  3. PCC_Generator PCC_Generator Public

    The code creates Combinatorial Discrete Cell Complex as a set of Adjacency and Incidence matrices based on the 2D/3D EBSD data

    1 1

  4. Plastic-Slip-Simulator Plastic-Slip-Simulator Public

    This Python code generates a Combinatorial Discrete Cell Complex for the slip planes arrangement in FCC and BCC lattices as a set of Adjacency and Incidence matrices

    Python 1

  5. visual-apps visual-apps Public

    Visual applications for PCC analysis and simulations

  6. ddrx-simulation ddrx-simulation Public

    A spin-off code of the 'Voronoi PCC Analyser' software project. Created as a simulation tool for nucleation-and-growth (NAG) structure evolution processes based on the discrete combinatorial repres…

    Jupyter Notebook

Repositories

Showing 9 of 9 repositories
  • PCC_Processing_Design Public

    The C++ code generates discrete structures and analyses their evolution process on the elements of a Polytopal Cell Complexes (PCCs) represented algebraically as a set of incidence and adjacency matrices

    PRISBteam/PCC_Processing_Design’s past year of commit activity
    C++ 2 MIT 1 11 1 Updated Nov 11, 2024
  • Plastic-Slip-Simulator Public

    This Python code generates a Combinatorial Discrete Cell Complex for the slip planes arrangement in FCC and BCC lattices as a set of Adjacency and Incidence matrices

    PRISBteam/Plastic-Slip-Simulator’s past year of commit activity
    Python 0 1 0 0 Updated May 21, 2024
  • Hellinger_distances_for_MDF Public

    This jupyter (.ipynb) notebook is written as a tool for automatic detection and quantification of mesostructure (including shear bands) based on the measurement of the Hellinger distances between random and actual misorientation distribution function (MDF) experimentally obtained by EBSD or X-ray microscopy.

    PRISBteam/Hellinger_distances_for_MDF’s past year of commit activity
    Jupyter Notebook 0 0 0 0 Updated Apr 3, 2024
  • Voronoi_PCC_Analyser Public

    Based on the NEPER software output, this Python package provides useful tools for a Polyhedral Cell Complex (PCC) analysis and visualisation

    PRISBteam/Voronoi_PCC_Analyser’s past year of commit activity
    Python 5 GPL-3.0 2 0 0 Updated Mar 22, 2024
  • PRISBteam.github.io Public

    Technical and Theoretical Code Manuals

    PRISBteam/PRISBteam.github.io’s past year of commit activity
    0 MIT 0 0 0 Updated Dec 13, 2023
  • .github Public
    PRISBteam/.github’s past year of commit activity
    0 MIT 0 0 0 Updated Nov 6, 2023
  • PCC_Generator Public

    The code creates Combinatorial Discrete Cell Complex as a set of Adjacency and Incidence matrices based on the 2D/3D EBSD data

    PRISBteam/PCC_Generator’s past year of commit activity
    1 GPL-3.0 1 0 0 Updated Oct 3, 2023
  • ddrx-simulation Public

    A spin-off code of the 'Voronoi PCC Analyser' software project. Created as a simulation tool for nucleation-and-growth (NAG) structure evolution processes based on the discrete combinatorial representation of 2D and 3D polycrystalline materials.

    PRISBteam/ddrx-simulation’s past year of commit activity
    Jupyter Notebook 0 0 0 0 Updated Aug 27, 2023
  • visual-apps Public

    Visual applications for PCC analysis and simulations

    PRISBteam/visual-apps’s past year of commit activity
    0 GPL-3.0 0 0 0 Updated Jun 27, 2023

People

This organization has no public members. You must be a member to see who’s a part of this organization.

Top languages

Loading…

Most used topics

Loading…