quimb
quimb: A python package for quantum information and many-body calculations - Published in JOSS (2018)
qiskit
Qiskit is an open-source SDK for working with quantum computers at the level of extended quantum circuits, operators, and primitives.
cirq
Python framework for creating, editing, and invoking Noisy Intermediate-Scale Quantum (NISQ) circuits.
qsim
Fast C++ and Python library for state-vector simulation of quantum circuits.
tensorcircuit
Tensor network based quantum software framework for the NISQ era
openfermion
Python package for compiling and analyzing quantum algorithms to simulate electronic structures.
tensorcircuit-ng
The next-gen tensor network based quantum software framework: superseding the original TensorCircuit
mqt.predictor
MQT Predictor - A Tool for Automatic Device Selection with Device-Specific Circuit Compilation for Quantum Computing
qiskit-addon-cutting
Reduce width and depth of quantum circuits by cutting gates and wires.
qualtran
Qᴜᴀʟᴛʀᴀɴ is a Python library for expressing and analyzing Fault Tolerant Quantum algorithms.
https://github.com/anon0411/decoh_as_codom
Feedback-guided quantum circuits exploring codomain-zero as a structural condition. 구조 형성의 조건으로서 공역 0을 실험하는 피드백 기반 양자 회로.
https://github.com/anon0411/qfm-cell-a
Experimental designs, quantum circuits, and quantitative analyses for the QFM-CELL-A series, exploring structural responsiveness and adaptation in repetitive functional quantum circuits.
https://github.com/anon0411/g-series-alignment-pathways
Structure-based alignment experiments in perturbed quantum circuits. Extension of G-series with no explicit intent insertion.
https://github.com/anon0411/quantum-feedback-matter
Structural cohesion in quantum circuits under feedback control Explore feedback-based structural persistence in quantum systems — modeling cohesion without matter.
recirq
Python modules for quantum computing applications and experiments using Cirq. Research using Cirq!