BorjaRequena / VMC_introduction
Introduction to quantum Monte Carlo. From the foundations to state-of-the-art Restricted Boltzmann Machine ansatz.
☆17Updated 3 years ago
Alternatives and similar repositories for VMC_introduction:
Users that are interested in VMC_introduction are comparing it to the libraries listed below
- Introduction to DMRG, TDVP and TeNPy☆18Updated 3 years ago
- DMRGPy is a Python library to compute quasi-one-dimensional spin chains and fermionic systems using matrix product states with DMRG as im…☆93Updated this week
- Matrix Product States on NISQ quantum computers☆29Updated 4 years ago
- Jupyter notebooks for a tutorial/computational part of mini-series on "Foundations of Theoretical and Computational Open Quantum Systems"…☆16Updated 4 years ago
- ADAPT-VQE simulation code☆26Updated 4 months ago
- Jupyter notebook with a didactic implementation of DMRG.☆15Updated last year
- Code containing notes for the derivation of mapping a Hubbard system to a quantum computing environment and an example of time evolution …☆14Updated 3 years ago
- iTEBD simulation for XXZ spin chain☆14Updated 7 years ago
- A pedagogical realization of MPS method.☆95Updated 3 years ago
- Python implementation of the DMRG algorithm for the Taipei DMRG Winter School☆56Updated 12 years ago
- ☆17Updated 4 years ago
- Basics on Exact Diagonalization☆82Updated 7 years ago
- Qiskit implementation of classical shadow formalism with VQE for calculating ground state energies of molecules☆11Updated last year
- Tutorials for the lecture "Computational Methods in Many-Body Physics"☆68Updated 4 years ago
- Implementation of Stochastic Series Expansion Monte Carlo method for the spin-S XXZ model. https://doi.org/10.1103/PhysRevE.67.046701☆12Updated 7 months ago
- An **unofficial** pytorch implementation of using generative models to do quantum state tomography with POVM measurements.☆34Updated 4 years ago
- Matrix product states (MPS) based density matrix renormalization group (DMRG)☆26Updated last year
- Random unitary time evolution plus projective measurement in the one-dimensional quantum circuit model☆11Updated 4 years ago
- Exact diagonalization library for general models☆35Updated 5 months ago
- A Tutorial on Optimal Control and Reinforcement Learning methods for Quantum Technologies, notebooks☆13Updated 10 months ago
- Examples for running TeNPy☆13Updated 5 months ago
- 290 seminar for 2020 fall - 2021 summer☆27Updated this week
- Classical shadows codes for quantum simulations of fermions and qubits, with error-mitigation routines for systems with symmetries☆20Updated 8 months ago
- A matrix-product-operators solver for the dynamics of interacting qubits modeled by a Lindblad master equation, written in C++ and wrappe…☆40Updated 3 months ago
- A quantum system simulator using PEPS tensor network☆19Updated 3 years ago
- An implementation of the time dependent variational principle for matrix product states☆70Updated 2 years ago
- Solving two-dimensional spin models with tensor networks (powered by PyTorch)☆82Updated this week
- The repository contains Jupyter notebooks for hands-on tutorials organized within the Summer School: Machine Learning for Quantum Physics…☆38Updated 4 months ago
- An Exact Diagonalization Code for the 1D & 2D Hubbard Model☆21Updated 3 years ago
- An implementation of the transformer quantum state, a multi-purpose model for quantum many-body problems☆34Updated last year