Design automation software tools for Topological Quantum Error Correction
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Updated
Jul 6, 2026 - Python
Design automation software tools for Topological Quantum Error Correction
This repo contains CUDA-Q Academic materials, including self-paced Jupyter notebook modules for building and optimizing hybrid quantum-classical algorithms using CUDA-Q.
PyMatching: A Python/C++ library for decoding quantum error correcting codes with minimum-weight perfect matching.
MQT QECC - Tools for Quantum Error Correcting Codes
Clifford circuits, graph states, and other quantum Stabilizer formalism tools.
Qiskit quantum error correction framework
Fast universal quantum circuit sampler for QEC based on ZX stabilizer rank decomposition
Search-based decoder for quantum error correction (QEC) written in C++ and Python.
Qiskit Topological Codes
qecsim is a Python 3 package for simulating quantum error correction using stabilizer codes.
Simulation and visualization of quantum error correcting codes
✅ Python package for simulation and visualization of quantum error-correction on surface codes. The package provides the ability to inspect the error-correcting code during the decoding process, and tools to benchmark the decoder.
Next-gen AI-native tensor-network-based quantum software framework
Tensor networks for quantum error correction.
Software for exploring, developing, and evaluating quantum error-correction protocols.
Quantum error correction code AI-discovery with Jax
An implementation of the belief-matching decoder
Open-source implementation of a Möbius decoder for color codes used in quantum error correction (QEC)
Design scalable noise characterisation experiments for quantum computers
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