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.
Make transparent, accessible benchmarks available to everyone in the quantum computing community.
BenchmarkingCommunity
Platform for tracking and sharing quantum technology benchmarks. Users can make new submissions that show the performance of different methods on platforms against tasks
Benchmark quantum compiler performance and fidelity
Benchmarking
Benchmark quantum compilers, including UCC. Measure compilation time, gate counts, and simulation fidelity under ideal and noisy conditions. Save results in JSON for analysis.
Build, simulate, and run quantum circuits in your browser.
Quantum CircuitsSimulators
Design, simulate, and execute quantum circuits directly in your web browser. Supports synthesis, transpilation, hybrid algorithms, and multiple hardware platforms.
Learn quantum computing, QML, and chemistry with a comprehensive resource. Practice quantum programming through hands-on examples and detailed tutorials.
Hybrid quantum computing for ML, chemistry, and science.
High-level Quantum ProgrammingHybrid computing+1 more
An open-source Python framework for quantum machine learning, chemistry, and computing. Built by researchers for research, it integrates quantum computation with classical ML and scientific libraries.
Bridging natural language and quantum computation.
High-level Quantum ProgrammingNatural Language Processing
Translate natural language sentences into quantum circuits. This high-level Python library provides tools for parsing linguistic structures and building quantum models for NLP tasks.
Software platform for the development and execution of gate-level quantum computation
Quantum CircuitsTranspilers
Software platform for the development and execution of gate-level quantum computation, providing state-of-the-art performance in circuit compilation. The toolset is designed to aid platform-agnostic software and extract the most out of the available NISQ devices of today.
Automated quantum control for rapid system development.
BenchmarkingCalibration
Automate superconducting quantum computer tuning and optimization. Cut experiment times to seconds, simplify complex tasks, and accelerate system bring-up, characterization, and scaling.
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.
Python toolkit for implementing error mitigation techniques on quantum computers
Error-mitigation
Python toolkit for quantum error mitigation. Apply techniques like ZNE, PEC, and CDR to reduce noise effects on noisy quantum computers. Supports various frontends and backends.
Build your quantum computing expertise from beginner to advanced.
Education
Learn quantum computing fundamentals, algorithms, and applications. Progress from beginner to advanced topics, including circuit creation, error correction, and working with hardware.
Learn quantum computing interactively online. Go from fundamentals to programming real quantum computers with intuitive modules and hands-on activities.
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.
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.
