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Qubit-Pro 0.2 documentation
Qubit-Pro 0.2 documentation

Product Guide

  • Creating an Account and Signing In
  • Designing a Chip with the Drag-and-Drop Editor
  • Dashboard Overview
  • Managing Your Workspace
  • Architecture & Chip Designer
  • Component Library & Layout Viewer
  • Verification & Fault Tolerance
  • Version Control
  • Team & Admin

Reference

  • QCLang Design Rules and Constraints
  • QCLang Output Targets
  • API Reference
  • Superconducting Materials
    • Aluminum (Al)
    • Niobium (Nb)
    • Silicon (Si) Substrate
    • Sapphire (Al₂O₃) Substrate
    • Titanium Nitride (TiN)
    • Niobium Nitride (NbN)
    • Niobium Titanium Nitride (NbTiN)
    • Aluminum Oxide (AlOx) Tunnel Barrier
    • Molybdenum Rhenium (MoRe)
    • Indium (In) Bump Bonds
    • Materials Summary

Simulation and Analysis

  • HFSS Electromagnetic Simulation
  • Q3D Extractor Analysis
  • EPR Analysis in Superconducting Quantum Circuits
  • Simulation Dashboard Parameters
  • Results, Verification, and Reports
  • Fault-Tolerant Quantum Computing
    • Introduction
    • Physical vs Logical Qubits
    • Quantum Error Correction (QEC)
    • Common Error Types
    • Fault Tolerance Metrics
    • QEC Code Strategies
    • Code Comparison
    • Industry Roadmap
    • Key Takeaways
  • HFSS Results Analysis
    • S-Parameters & RF Performance
    • Resonator & Cavity Parameters
    • Electromagnetic Field Outputs
    • Qubit Performance Metrics
    • Crosstalk & Isolation
    • Thermal & Loss Parameters
    • Simulation Convergence Metrics
    • HFSS Summary
  • Q3D Results Analysis
    • Resistance Matrix (R)
    • Inductance Matrix (L)
    • Conductance Matrix (G)
    • Capacitance Matrix (C)
    • Parasitic Resistance
    • Parasitic Inductance
    • Parasitic Capacitance
    • Electromagnetic Coupling
    • Substrate & Dielectric Loss
    • Skin Effect & Frequency-Dependent
    • Post-Processing Derived Outputs
    • Key Takeaways
  • EPR / scQubits Analysis
    • Overview
    • Core EPR Parameters
    • Qubit Performance
    • Resonator & Coupling
    • Loss & Dissipation
    • Junction Parameters
    • Simulation Convergence
    • Summary Table
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