microsoft / svirlLinks
Svirl is GPU-accelerated solver of complex Ginzburg-Landau equations for superconductivity. It consists of time-dependent solver to describe vortex dynamics and free energy minimizer to accurately find static configurations.
☆24Updated 2 years ago
Alternatives and similar repositories for svirl
Users that are interested in svirl are comparing it to the libraries listed below
Sorting:
- 2D time-dependent Ginzburg-Landau in Python☆45Updated 2 months ago
- Simulate the magnetic response of 2D superconductors☆26Updated 4 months ago
- Mirror of the Kwant project https://gitlab.kwant-project.org/kwant/kwant☆97Updated 3 weeks ago
- SuperDetectorPy is a program for simulating superconducting single-photon detectors.☆15Updated 2 years ago
- 2-d drift-diffusion-Poisson python code☆20Updated last year
- Finite DIfference microMAGnetic code, based on Python, Cython and C☆62Updated 6 months ago
- QmeQ: an open-source Python package for calculations of transport through quantum dot devices.☆32Updated last year
- Python library to compute properties of quantum tight binding models, including topological, electronic and magnetic properties and inclu…☆104Updated last week
- Boris Computational Spintronics☆31Updated last year
- Fit and analyze scattering parameter data from resonators☆29Updated 2 years ago
- More versatile and extensible GPU-accelerated micromagnetic simulator☆18Updated this week
- 1D model written in Python which solves the semiconductor Poisson-Drift-Diffusion equations using finite-differences.☆27Updated 3 years ago
- Chern Number and Topological Phase Transition☆14Updated 6 years ago
- KITE Quantum Transport Software☆31Updated 3 weeks ago
- 3D visualization of micromagnetic simulation data from Mumax or OOMMF☆44Updated 5 years ago
- A simple Python-based open source software library for the numerical simulation of the linear or nonlinear time-dependent Schrödinger equ…☆40Updated 6 years ago
- The project represents an extendable Python framework for the electronic structure computations based on the tight-binding method and tr…☆32Updated last year
- MagTense - a micromagnetism and magnetostatic framework☆31Updated this week
- ☆34Updated last month
- FerroX is a massively parallel, 3D phase-field simulation framework for modeling ferroelectric materials based scalable logic devices.☆18Updated last week
- A Python package for multipole expansions of electrostatic or gravitational potentials☆44Updated 5 months ago
- Python code for conducting cluster-correlation expansion simulations of spin qubit dynamics.☆20Updated last year
- Core ALPS libraries☆106Updated last month
- A survey of computational physics problems in Python. Includes quantum mechanics, electrostatics, ODEs, PDEs, Monte Carlo, Fourier analy…☆59Updated 9 years ago
- ViMag - an OVF data visualizer☆13Updated 4 years ago
- User-friendly open-source software to design and solve tight-binding models, addressing electronic properties, topology, interactions, no…☆64Updated 6 months ago
- A tool for calculating topological invariants.☆90Updated 3 months ago
- Course at the graduate level on Quantum mechanics for many-particle systems. The link to lecture notes in the form of a jupyter-book is …☆48Updated last month
- Tools and a simple model for the spatially constant LLG equation☆18Updated 6 years ago
- MiTMoJCo (Microscopic Tunneling Model for Josephson Contacts) is C and Python code for simulating dynamics of superconducting Josephson j…☆10Updated 2 years ago