An open source framework for programming quantum computers
Quantum CircuitsTranspilers
Write, manipulate, and optimize quantum circuits in Python. Run them on quantum hardware and simulators, leveraging hardware-specific details crucial for noisy intermediate-scale devices.
High-performance simulation for multi-core and multi-node systems
Simulators
Achieve high-performance quantum circuit simulation on distributed systems. Optimized for multi-core and multi-node architectures using MPI for scalable state vector representation.
Provides client-side access for direct pulse-level control of quantum computers. Enables fine-grained hardware interaction for advanced experiments and calibration.
Speed up innovation and learning with instant quantum access
High-level Quantum ProgrammingPulse-level control+2 more
Access cutting-edge quantum processors and hardware via a fully managed cloud platform. Accelerate research and development for enterprises and academia.
Quantum circuit simulator based on decision diagrams written in C++
Quantum CircuitsSimulators
A tool for classical quantum circuit simulation developed as part of the Munich Quantum Toolkit (MQT). It builds upon MQT Core, which forms the backbone of the MQT.
MQT DDVis - An installation-free web-tool which visualizes quantum decision diagrams and allows to explore their behavior when used in design tasks such as simulation, synthesis, or verification.
Quantum Country
ZX-calculus
Unitary Foundation
IQM Pulla
Qrisp
Blueqat
