Stim Simulator
Purpose
Provides expert guidance on fast stabilizer circuit simulation using Stim, enabling large-scale quantum error correction studies and noise analysis.
Capabilities
- •Fast stabilizer circuit simulation
- •Error injection and propagation
- •Detector sampling
- •Circuit tableau tracking
- •Memory-efficient large-scale simulation
- •Monte Carlo error rate estimation
- •Detector error model generation
- •Pauli frame simulation
Usage Guidelines
- •Circuit Construction: Build Stim circuits with appropriate gates and noise
- •Detector Definition: Specify detectors for syndrome measurement
- •Sampling: Generate detector samples for decoding analysis
- •Error Model: Extract detector error models for decoder training
- •Statistics: Collect sufficient samples for statistical significance
Tools/Libraries
- •Stim
- •Stimcirq
- •PyMatching
- •NumPy