Quantum Lab
The Quantum Laboratory in the Open Research Laboratory empowers users to explore cutting-edge quantum computing concepts. It is designed to support high-accuracy experimentation in quantum error correction, custom code development, and quantum hardware integration.
All components in the Quantum Lab have a credit cost of 8.
This lab is fully integrated with the View Research Assistant, allowing you to build, modify, and simulate quantum experiments simply by describing your intent in natural language. From stabilizer codes to surface codes to hardware-level circuit designs — View handles the technical details.
Usage Guide
Section titled “Usage Guide”- Enter the Lab: Open the Quantum Lab through the Open Research Laboratory interface.
- Use View Research Assistant: Describe your experiment or code. For example:
- “Create a 7-qubit Steane code and simulate a phase-flip error.”
- “Connect a quantum chip with three logical qubits using surface code architecture.”
- Modify or Customize: Update code parameters, gate sequences, noise models, or hardware mappings just by describing the changes to View.
- Run the Simulation: Initiate the quantum experiment. The lab runs your design using advanced quantum simulators.
- View Results: Outputs include logical error rates, stabilizer measurements, decoding outcomes, and circuit visualizations.
No coding is needed — just describe your idea, and View will convert it into a working simulation.
Disclaimer
Section titled “Disclaimer”This lab is for educational and research use only. While the simulations are high-accuracy, they are still virtual and may not exactly match real-world quantum hardware behavior.
By using this lab, you acknowledge that all outputs are simulated approximations. Real hardware implementations may yield different results. The creators of this platform are not liable for any decisions or consequences arising from its usage.
Supported Research Areas
Section titled “Supported Research Areas”Note: This list may not include the most recent updates, as new components are added regularly.
Quantum Error Correction (QEC)
Section titled “Quantum Error Correction (QEC)”Design and simulate QEC codes like surface codes, Steane codes, and repetition codes. Analyze their behavior under noise and perform logical error analysis.
Custom Code Creation
Section titled “Custom Code Creation”Develop your own quantum codes from scratch — define logical qubits, stabilizers, and decoding methods with full flexibility.
Code Modification
Section titled “Code Modification”Edit and improve existing QEC frameworks, modify decoding strategies, or adjust gate configurations and error models.