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Hardware noise characterization protocols with SciRS2 analysis
This module implements experimental protocols for characterizing quantum hardware, including process tomography, state tomography, randomized benchmarking, and advanced SciRS2-powered noise analysis for comprehensive hardware understanding.
Structs§
- Advanced
Crosstalk Analysis - Advanced crosstalk analysis
- Advanced
Noise Characterizer - Comprehensive SciRS2-powered hardware noise characterization
- Advanced
Statistical Analysis - Advanced statistical analysis using SciRS2
- Characterization
Measurement - Individual characterization measurement
- Characterization
Recommendation - Coherence
Metrics - Supporting data structures
- Comprehensive
Characterization Result - Comprehensive characterization results with SciRS2 analysis
- Correlation
Analysis Result - Crosstalk
Characterization - Cross-talk characterization
- Crosstalk
Mitigation Strategy - Distribution
FitResult - Drift
Analysis Result - Drift analysis results
- Drift
Tracker - Drift tracking for monitoring parameter changes over time
- Model
Accuracy Metrics - Model
Prediction - Individual model predictions
- Noise
Characterization Config - Configuration for noise characterization protocols
- Outlier
Detection Result - Predictive
Models - Predictive models for performance forecasting
- Process
Tomography - Process tomography for characterizing quantum operations
- Protocol
Result - Results from individual characterization protocols
- Randomized
Benchmarking - Randomized benchmarking for characterizing average gate fidelity
- Spatial
Crosstalk Pattern - State
Tomography - State tomography for reconstructing quantum states
- Statistical
Test Result - Time
Series Forecast - Trend
Analysis Result
Enums§
- Characterization
Protocol - Types of characterization protocols
- Recommendation
Category - Recommendation
Priority
Traits§
- Characterization
Executor - Trait for executing characterization circuits