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See how our community is putting quantum to work.

Cambridge Quantum Computing Limited
Cambridge Quantum Computing Limited
Cambridge Quantum Computing Limited
Quantum Benchmark
Xanadu
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Tools

Integrated utilities that extend functionality throughout the stack and visualization tools for communicating results.

Q-CTRL

Black Opal

Intuitive graphical interface to discover quantum control.

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Algorithms & Applications

Pushing quantum computing into new domains, or accelerating existing ones. Quantum circuits, pulse schedules, and quantum-classical hybrid routines used either standalone, or as components of larger algorithms and applications.

Q-CTRL

Quantum Gym

We provide a ready-to-go gym environment facilitating the training of reinforcement learning algorithms within Qiskit.

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Q-CTRL

PennyLane

Train a quantum computer the same way as a neural network.

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Libraries

Collections of circuits, templates, and pulse schedules commonly used across multiple disciplines that are optimized for device performance, and accessible by both developers and the Qiskit infrastructure.

Q-CTRL

Open Controls

The most comprehensive open-source library for quantum control.

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Circuit optimizers

Dynamic system-aware quantum circuit rewriting toolchains, leveraging the Qiskit transpiler infrastructure, that deliver quantum circuits tailored for targeted quantum computing devices.

T|ket>

A platform agnostic quantum programming toolchain.

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True-Q Compiler

Extend the reach of quantum computing: find more reliable quantum solutions with the True-Q Compiler.

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Systems and Simulators

Powerful quantum computing systems capable of running quantum circuits and/or pulse schedules. Classical simulators for performing algorithm verification, debugging, and investigating performance with real-world noise models.

Q-CTRL

Boulder Opal

Simulate performance in realistic, noisy lab environments from the device level through to complete circuits.

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It takes a global community

...to bring quantum computing to the mainstream. Not only do our IBM Q Network members get access to the best systems and expertise, but they also get access to one another. It is only through the cross-pollination of ideas and innovation that we will jointly drive the future of quantum computing.

Learn about the mission of the IBM Q Network.

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Join the IBM Q network

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Black Opal

BLACK OPAL is a hardware-agnostic software suite which works with every qubit to reduce decoherence and errors at the physical layer. We empower you to design, analyze, and optimize quantum controls through the most intuitive and powerful cloud service.

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IBM Q integration

Controls may be output in OpenPulse format.

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Quantum Gym

We provide a ready-to-go gym environment facilitating the training of reinforcement learning algorithms within Qiskit. Our environment allows fine-grained control to the user in five fields of customization: circuit size, connectivity, gate sets and target (state or unitary).

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IBM Q integration

A quantum circuit implementation using the Qiskit library, containing methods to construct and simulate quantum circuits designed to perform specific operations.

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Boulder Opal

BOULDER OPAL allows professional scientists and engineers to embed customized quantum control techniques directly into their research and products. We provide “DIY” products as well as full custom integration into quantum computing hardware, including robust optimization and hardware calibration tools.

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IBM Q integration

BOULDER OPAL is a python-based toolkit allowing full integration with any other imported python packages. We provide tools to format control solutions in OpenPulse format​.

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Open Controls

Open Controls is an open-source Python package that makes it easy to create and deploy error-robust quantum control protocols from the open literature. Use our easy export functions to deploy controls to custom quantum hardware, cloud quantum computers, or Q-CTRL products.

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IBM Q integration

Controls from the library may be converted to ​Qiskit circuits​ or OpenPulse format​ using tools provided.

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Open Controls Marketplace
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t|ket>

t|ket> is an optimizing compiler for quantum software applications. It optimizes quantum circuits and maps them to devices via a hardware agnostic toolchain. Pytket allows users to interface with t|ket> via Python, as well as interfacing with Qiskit and other platforms, and run compiled circuits on quantum backends.

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IBM Q integration

Conversion to and from Qiskit circuits to pytket circuits including the TketPass transpiler pass for Qiskit Terra. Pytket provides circuit optimization for IBM Q backends.

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True-Q Compiler

The True-Q Compiler, powered by Quantum Benchmark's world-leading error suppression technology, is a simple and automated compiler pass that helps users solve bigger problems and achieve more precise and validated quantum solutions with the error-prone hardware of today and tomorrow.

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IBM Q integration

True-Q provides easy-to-use converters to and from Qiskit circuit objects. It also provides conversion tools from arbitrary operations to Qiskit specific gates.

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PennyLane

PennyLane is a cross-platform Python library for quantum machine learning, automatic differentiation, and optimization of hybrid quantum-classical computations. Link world-class machine learning software like TensorFlow and PyTorch together with any vendor's quantum hardware.

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IBM Q integration

This PennyLane plugin allows to use both the software and hardware backends of Qiskit as devices for PennyLane.

Read the docs

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Learn about the IBM Q Network

Explore how organizations are working with IBM to advance quantum computing

Get started with the IBM Q Experience

Sign in to run experiments and develop applications on IBM Q systems and simulators

Quantum computing at IBM

Learn about quantum computing research, technology and development at IBM Q

Develop with Qiskit

Qiskit is an open source programming framework to interface with IBM Q systems