Solve time-dependent open quantum systems in parallel.
Simulators
Solve time-dependent open quantum systems efficiently in parallel. Supports general systems like Jaynes-Cummings and spin-boson models, plus quantum information features.
Develop quantum algorithms with Q#, tools, and learning.
High-level Quantum ProgrammingQuantum Circuits
Develop quantum algorithms using the Q# language, comprehensive tooling, and learning resources like Quantum Katas. Includes a resource estimator and integrates with Azure Quantum.
High-level language for scalable quantum algorithm development
High-level Quantum ProgrammingQuantum Circuits
Develop quantum algorithms with a high-level language. Features typed variables, automatic uncomputation, modularity, integrated arithmetic, and broad hardware compatibility.
Comprehensive, GPU accelerated framework for developing universal virtual quantum processors
Simulators
Framework for full-stack quantum computing development, via high performance and fundamentally optimized simulation. The intent of "Qrack" is to provide maximum performance for the simulation of an ideal, virtually error-free quantum computer, across the broadest possible set of hardware and operating systems.
Provides pure, safe, and standard Rust bindings for the high-performance Qrack quantum simulator. Leverage Qrack's OpenCL acceleration within Rust applications.
Build and run quantum workloads with the leading open-source SDK.
CompilersQuantum Circuits+1 more
Build, refine, and execute quantum workloads at scale. This open-source toolkit is the highest-performing SDK for building and transpiling circuits, offering simplified workflows and powerful tools.
Design, simulate, and optimize fault-tolerant quantum computer architectures. Model over 20 hardware imperfections to accelerate logical qubit experiments.
Quantum Country
ZX-calculus
Unitary Foundation
IQM Pulla
Qrisp
Blueqat
