Introducing Leap

• What is Leap?
• Leap and D-Wave Quantum Computers
• Leap Subscriptions
• Learning Resources
• Open-Source Software
• Leap Community

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Get Access

• Sign Up
• Get an API Token

Learn

• Explore Our Examples
• Try the Demos
• Try the Jupyter Notebooks
• Join the Conversation
• Read the Documentation

Try It Out

• Try the Leap IDE
• Install the Ocean SDK Locally
• Define a Simple Problem and Submit it to a QPU (Ising Example)

About Advantage™

• What problems can I run on Advantage that I can't run on the D-Wave 2000Q?
• Moving from the 2000Q to Advantage

About hybrid computing

• What types of hybrid solvers are available?
• What is the difference between the hybrid solver service (HSS) and dwave-hybrid?
• Why do I get errors when I try to use the hybrid solver from my local setup?
• How does the hybrid solver service's performance compare to other solvers?
• How do the hybrid and QPU solvers consume time?
• How do I choose a time limit for the hybrid solver?

About the problem inspector

• How do I call the problem inspector?
• How do I read the histogram in the problem inspector?

About the Leap IDE

• How can I add python packages to the Leap IDE?
• How do I preview formatted README.rst files in the IDE?
• How does data storage work in the Leap IDE?
• What is the difference between a workspace and the Leap IDE?
• How is the Leap IDE different from my local setup?
• Can I import a file or function from one workspace into another?

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About Applications

• What Applications have D-Wave Customers Developed?
• What Types of Problems Can the D-Wave Quantum Computer Solve?
• What is Optimization?
• What is a Constraint Satisfaction Problem?
• What is Probabilistic Machine Learning?

About Open-Source Tools

• How Do I Install Ocean?
• How does the DWaveSampler/DWaveCliqueSampler select a solver?
• What is Ocean?
• Where Can I Access the Ocean Software?

About Programming

• How do I create a problem in the right form for the system?
• When would results benefit from having a longer anneal time?
• Tell me about Spin Reversal Transforms (SRTs)
• Which solver/sampler should I use?
• How Can I Learn How to Program for the QPU?
• What is a Binary Quadratic Model (BQM)?

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About Quantum Annealing

• What is Quantum Annealing?
• What is the Hamiltonian?
• What are "Probabilistic Solutions"?
• What is the Standard Annealing Schedule: A(s) and B(s)?
• Why Do We Usually Take Multiple Reads (Samples)?
• Why Do Results Vary?

About the D-Wave Quantum Computer

• How Many Qubits Do D-Wave Quantum Computers Have?
• How Cold is It?
• What is the Pegasus Topology?
• Is It Really Quantum?
• What is the QPU's Operating Environment?
• What is the Solver API (SAPI)?

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About Leap

• From What Countries Can I Sign Up for a Free Leap Account?
• How do I add a new API token or profile to my configuration file?
• Are Multiple Active QPUs Available Through Leap?
• How Can I Get a New Activation Link?
• What Do I Get When I Sign Up for Leap?
• What Can I Do With a Minute of QPU Time?

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About D-Wave

• What is D-Wave's Technology?
• What Scientific Research has D-Wave Published?
• When was D-Wave Founded?
• What Training Options Does D-Wave Offer?

COVID-19 Development

• Free Quantum Cloud Access for Global Response to COVID-19

New Features in Leap

• New Hybrid Solver: Discrete Quadratic Model
• Hybrid Solver Service Upgrades
• Introducing Advantage
• Leap Access Expanded to India and Australia
• Introducing Leap 2
• Hybrid Solver Service

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D-Wave Documentation

• D-Wave System Documentation
• Ocean Software Documentation
• Glossary
• Digital Millennium Copyright Act (DMCA) Notice

Details of the QPUs Available Through Leap

• QPU-Specific Physical Properties
• Why do solvers come and go?
• QPU-Specific Anneal Schedules
• General Solver Properties and Parameters

System Status

• Status Page