tenpy / tenpy_notebooks
Examples for running TeNPy
☆12Updated last month
Related projects ⓘ
Alternatives and complementary repositories for tenpy_notebooks
- A matrix-product-operators solver for the dynamics of interacting qubits modeled by a Lindblad master equation, written in C++ and wrappe…☆38Updated this week
- This repo contains an implementation of the Simple-Update Tensor Network algorithm as described in the paper - A universal tensor network…☆11Updated 4 months ago
- Matrix Product States on NISQ quantum computers☆28Updated 3 years ago
- An **unofficial** pytorch implementation of using generative models to do quantum state tomography with POVM measurements.☆33Updated 3 years ago
- Tutorials for Hamiltonian Open Quantum System Toolkit(HOQST)☆26Updated 2 years ago
- Code for reproducing the results of "IBM Q Experience as a versatile experimental testbed for simulating open quantum systems"☆19Updated 4 years ago
- Classical shadows codes for quantum simulations of fermions and qubits, with error-mitigation routines for systems with symmetries☆20Updated 5 months ago
- Our LLM for Rydberg atom physics☆34Updated 4 months ago
- ADAPT-VQE simulation code☆26Updated last month
- A blog introducing the idea of classical shadow tomography, and Hamiltonian-driven shadow tomography of quantum states(https://arxiv.org/…☆22Updated 3 years ago
- Introduction to DMRG, TDVP and TeNPy☆17Updated 2 years ago
- ☆39Updated 5 years ago
- ☆12Updated 5 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…☆88Updated this week
- A Tutorial on Optimal Control and Reinforcement Learning methods for Quantum Technologies, notebooks☆13Updated 7 months ago
- Julia toolkit for open quantum system simulation.☆73Updated last year
- Jupyter notebooks for a tutorial/computational part of mini-series on "Foundations of Theoretical and Computational Open Quantum Systems"…☆15Updated 3 years ago
- BoFiN HEOM Python version.☆16Updated last year
- Fast quantum evolution and eigensolving using Krylov subspace methods via the PETSc/SLEPc libraries.☆33Updated 3 weeks ago
- quantum circuit systems☆17Updated last month
- Qiskit implementation of classical shadow formalism with VQE for calculating ground state energies of molecules☆11Updated last year
- An implementation of the time dependent variational principle for matrix product states☆69Updated 2 years ago
- Tensor network contraction function for Python 3.☆47Updated last year
- Preparing Matrix Product State in Qiskit☆27Updated last year
- Code containing notes for the derivation of mapping a Hubbard system to a quantum computing environment and an example of time evolution …☆11Updated 3 years ago
- Solving two-dimensional spin models with tensor networks (powered by PyTorch)☆78Updated last month
- A Mathematica package for multithreaded and GPU simulation of quantum computers☆30Updated last month
- VQE Dissertation Project☆22Updated last month
- Package for using Matrix Product States (MPS) to simulate quantum circuits.☆15Updated 4 years ago
- An intuitive programming package for simulating and analyzing Clifford circuits, quantum measurement, and stabilizer states with applicat…☆75Updated last month