This is an implementation of IBM's Quantum Experience in simulation; a 5-qubit quantum computer with a limited set of gates. Please cite me if you end up using this academically.

High Performance Tools for Quantum Computing

Quantum Hardware Design. Open-source project for engineers and scientists to design superconducting quantum devices with ease.

KLayout Python library for integrated quantum circuit design.

Python simulation of protocol BB84 for QKD.

Quantum programming language putting entanglement and superposition front and center

An efficient Python-based framework for implementing qubit subspace methods, reducing the resource requirements for near-term quantum simulations.

The aim is to allow Alice and Bob to generate a secure private key that can be used for the one-time pad without having to meet privately.

A set of simple tutorial programs for quantum computing including a game, Fly Unicorn.

Simulate realistic quantum control sequences using QuTiP

Tools to aid in simulating and fabricating superconducting quantum devices

Quantum Computing Basics Using Python projectq

Reinforcement learning model-free quantum control on many coupled qubits.

Quantum computing simulator with a tensorflow-like API

Project based on Figure 30 of the The Virtual Quantum Optics Laboratory paper. IN TESTING PHASE.

A superposition generator using PRNG to output effectively randomized qubit states.

Python package containing Pauli Twirling pairs for common two-qubit gates, functions to generate Pauli Twirling pairs for additional gates, and twirling implementations