⚡ Multi-Framework Quantum Circuit Editor
Write quantum circuits in IBM Qiskit, Google Cirq, or Xanadu PennyLane
with syntax highlighting, auto-completion, and real-time error detection. Switch between frameworks
seamlessly.
🔬 Real-Time Quantum Simulation
Simulate quantum circuits instantly with statevector, density matrix,
and measurement count backends. Visualize results with interactive histograms and Bloch sphere
representations.
🖥️ IBM Quantum Hardware Integration
Submit quantum circuits directly to real IBM Quantum processors. Track
job status, view hardware calibration data, and compare simulation vs. real hardware results.
📝 Version Control for Quantum Experiments
Track every iteration of your quantum research with built-in version
control. Create workspaces (spawn), save circuit snapshots (pulse), branch experiments (phase), compare
results (delta), and merge findings (fuse).
🛡️ Quantum Error Mitigation & Optimization
Optimize quantum circuits with transpilation, gate decomposition, and
noise-aware compilation. Built-in error mitigation using Mitiq for zero-noise extrapolation and
probabilistic error cancellation.
🤖 Quantum Machine Learning Tools
Build quantum neural networks (QNN), variational quantum eigensolvers
(VQE), and QAOA circuits with PennyLane integration. 16 measurement types including expectation values,
variances, and von Neumann entropy.
👥 Collaborative Research Workspaces
Share quantum projects with your team. Collaborative workspaces let
multiple researchers work on quantum experiments together, with activity logs and access controls.
📊 Fidelity Benchmarking Suite
Measure circuit fidelity with Hellinger distance, Total Variation
Distance (TVD), and Cross-Entropy Benchmarking (XEB). Track coherence telemetry including T1/T2 times and
error rates.