txhaug / quantum-geometry
Program to calculate quantum geometry properties of parametrized quantum circuits. Determines number of redundant parameters, effective quantum dimension and quantum natural gradient.
☆12Updated 2 years ago
Related projects: ⓘ
- Gradient-descent quantum process tomography by learning Kraus operators☆19Updated 2 years ago
- ☆37Updated 4 years ago
- Quantum Theory of Information for Python; pronounced "cutie pie". A package for performing calculations with quantum states and channels.☆21Updated 3 weeks ago
- Matrix Product States on NISQ quantum computers☆26Updated 3 years ago
- A Quantum circuit simulator based on Restricted Boltzmann Machines.☆21Updated 2 years ago
- Reconstructing quantum states with generative models☆48Updated 5 years ago
- A package for efficient simulation and differentiation of parametrized quantum circuits.☆14Updated last year
- A Python library to integrate automatic differentiation tools such as JAX with QuTiP and related quantum software packages.☆43Updated 2 years ago
- A blog introducing the idea of classical shadow tomography, and Hamiltonian-driven shadow tomography of quantum states(https://arxiv.org/…☆22Updated 3 years ago
- gradient based training of Quantum Circuit Born Machine☆43Updated 5 years ago
- Program to calculate SDPs using Noisy intermediate scale quantum (NISQ) computers.☆11Updated last month
- Julia package to perform quantum state and process tomography☆31Updated 3 years ago
- Quantum state tomography with conditional generative adversarial networks☆32Updated 2 years ago
- JAX backend for QuTiP☆18Updated last week
- Package for using Matrix Product States (MPS) to simulate quantum circuits.☆15Updated 4 years ago
- Tensor network contraction function for Python 3.☆44Updated last year
- Search with Quantum Singular Value Transformation in Qiskit☆46Updated 2 years ago
- ☆9Updated 3 years ago
- Tools for optimizing quantum circuits and for performing rescaling-based error mitigation.☆10Updated 2 years ago
- Deep Multiscale Renormalization Ansatz(DMERA) : Noise-Resilient Quantum Simulation of Strongly Correlated Quantum Many-body Systems☆15Updated 4 years ago
- Library to implement the Variational Quantum Eigensolver (VQE) using hardware-efficient entangled measurements to estimate the energy☆10Updated last year
- ☆18Updated last year
- Quantum information mathematica package☆38Updated 7 months ago
- Code for predicting ground states and classifying phases of matter☆28Updated last year
- Code that was used to generate the results for the publication 'Implementing a distance-based classifier with a quantum interference circ…☆15Updated 5 years ago
- ☆27Updated last year
- QREM - Quantum Readout Errors Mitigation, an open-source package for implementing techniques of measurement error mitigation on quantum d…☆19Updated 2 years ago
- Riemannian optimization for quantum technologies☆56Updated last year
- Simulating quantum supremacy benchmarking with random unitary sampling.☆17Updated 4 years ago
- Quantum Autoencoder Implementation using Forest and OpenFermion☆21Updated 5 years ago